Entries |
Document | Title | Date |
20080259725 | Acoustic crosstalk reduction for capacitive micromachined ultrasonic transducers in immersion - A reduced crosstalk capacitive micromachined ultrasonic transducer (CMUT) array is provided. The CMUT array has at least two CMUT array elements deposited on a substrate, at least one CMUT cell in the array element, a separation region between adjacent CMUT array elements, and a membrane formed in the separation region. The membrane reduces crosstalk between adjacent array elements, where the crosstalk is a dispersive guided mode of an ultrasonic signal from the CMUT propagating in a fluid-solid interface of the CMUT array. Each cell has an insulation layer deposited to the substrate. A cell membrane layer is deposited to the insulation layer, where the cell membrane layer has a vacuum gap therein. The cells further have an electrode layer deposited to a portion of the membrane layer, and a passivation layer deposited to the electrode layer, the cell membrane layer and to the insulation layer. | 10-23-2008 |
20090003128 | Method of Acquiring an Ultrasound Image - The present invention relates to a method of acquiring an ultrasound image in an ultrasound imaging system having an array transducer, comprising: a) setting an image point at a predetermined depth on an ultrasound image acquired based on a reference speed of sound for a target object; b) setting a range of speed of sound with reference to the reference speed; c) setting a plurality of speeds of sound in a predetermined interval within the range of speed of sound; d) acquiring ultrasound images at each speed of sound; e) calculating an amplitude of an image point set at a predetermined depth of each ultrasound image; f) determining a real speed of sound in the target object based on the calculated amplitude; and g) acquiring an ultrasound image based on the determined real speed of sound in the target object. | 01-01-2009 |
20090122639 | METHOD AND APPARATUS FOR ELEVATION FOCUS CONTROL OF ACOUSTIC WAVES - An acoustic probe ( | 05-14-2009 |
20090303833 | METHOD OF VOLUME-PANORAMA IMAGING PROCESSING - The present invention discloses a method of volume-panorama imaging processing, which generates a volume-panorama image by subsequently splicing respective image frames from an image sequence obtained in a real-time way or stored in a medium based upon the fact that the immediately adjacent image frames have the largest correlation. The method comprises the steps of: reading the image sequence, and firstly initializing an aligned image and a spliced image; dividing the i-th image frame F | 12-10-2009 |
20090310438 | Method of representation of sonar images - Sonar three dimensional data are represented by a two dimensional image. Pixels of the two dimensional image are emphasized if the if the three dimensional data associated with the pixel differ by more than a criterion from the three dimensional data associated with neighboring pixels. | 12-17-2009 |
20100157726 | THREE-DIMENSIONAL ACOUSTIC PANNING DEVICE - [Problems] To provide a three-dimensional acoustic panning device enabling a three-dimensional-panning of a sound source as a sound image panning. | 06-24-2010 |
20100232257 | ULTRASONIC PROBE AND ULTRASONIC IMAGING DEVICE - Provided is an ultrasonic probe for simultaneously achieving improvement of both of a generatable sound pressure and a gain. An upper electrode | 09-16-2010 |
20100278008 | ACOUSTIC AND ULTRASONIC CONCEALED OBJECT DETECTION - An acoustic/ultrasonic detection system can detect, for example, an object concealed under the clothing of a subject. The system includes a signal generator configured to output an electrical signal. An acoustic/ultrasonic transducer can be configured to convert the electrical signal into an acoustic/ultrasonic signal, transmit the acoustic/ultrasonic signal, receive a reflected acoustic/ultrasonic signal from an object in the target area and convert the reflected acoustic/ultrasonic signal into a received electrical signal. The transducer is at least one of an air-coupled transducer and an electro-magnetic acoustic transducer. The system can also include an acoustic/ultrasonic antenna aperture operatively connected to the transducer and configured to focus the transmitted acoustic/ultrasonic signal to create a narrow beam in the target area, a processor configured to extract object information from the received electrical signal and an object indication device to provide an indication of a detected object based on the extracted object information. | 11-04-2010 |
20110063945 | APPARATUS AND METHOD FOR PROCESSING AN ULTRASOUND SPECTRUM IMAGE - There is provided a method of processing an ultrasound spectrum image. According to such method, a spectrum image is formed based on ultrasound data and then the noise is removed from the spectrum image. The noise-removed spectrum image is matched with one or more spectrum models representing specific spectrum types. Then, whether or not the noise-removed spectrum image contains an aliasing is checked. If the noise-removed spectrum image contains the aliasing, then the aliasing is removed from the noise-removed spectrum image to provide a noise-removed spectrum image without the aliasing. Thereafter, contour tracing is performed on the noise-removed spectrum image without the aliasing to detect contour points. Further, peak tracing is performed on the noise-removed spectrum image without the aliasing to detect peaks. | 03-17-2011 |
20110096621 | SYSTEM AND METHOD FOR IMAGING - An imaging device is provided, comprising: a decorrelation circuit configured to receive K initial imaging signals and to perform a decorrelation operation on K initial imaging signals, respectively, to generate K decorrelated imaging signals; K | 04-28-2011 |
20110096622 | Acoustic imaging of objects in optically opaque fluids - The present invention is a method and an apparatus that can image objects immersed in optically opaque fluids using ultrasound in a confined space and in a harsh environment. If the fluid is not highly attenuating at frequencies above 1 MHz, where commercial ultrasound scanners are available, such scanners can be adapted for imaging in these fluids. In the case of highly attenuating fluids, such as drilling mud, then a low frequency collimated sound source is used. | 04-28-2011 |
20110128815 | CART FOR ULTRASONIC IMAGING APPARATUS AND ULTRASONIC IMAGING SYSTEM - A cart for use with an ultrasonic imaging apparatus, comprising: a supporting part, a cart body and a bottom part; said cart body is connected to the supporting part and the bottom part; said supporting part is provided with an interface thereon for supporting and connecting the ultrasonic imaging apparatus; said cart body is an elevator structure provided with a power cable therein for supplying power to the ultrasonic imaging apparatus; the lower portion of the supporting part and the upper portion of the bottom part are both provided with a power socket; said power cable is a coiled cord structure, and its two ends are connected to the two power sockets; a stretchable elastic component having elastic recovery is provided inside the coiled cord structure of the power cable. | 06-02-2011 |
20110149680 | MEASURING SYSTEM, IMAGE FORMING METHOD, AND PROGRAM - A measuring system for receiving acoustic waves and producing image data includes an acoustic wave receiver that detects acoustic waves which are generated by irradiating a specimen with pulsed light. The acoustic wave receiver converts the detected acoustic waves into an electric signal, and an image forming apparatus generates image data by using the electric signal. An artifact attributable to a band of an acoustic wave receiver is distinguished and reduced based on the positional relationship among respective voxel data representing an actual image and a reflected image of a light absorber located within the specimen and related artifacts, as viewed on the image data, by utilizing an acoustic wave reflecting surface on which the specimen is disposed. | 06-23-2011 |
20110182136 | ACOUSTIC WAVE MEASURING SYSTEM AND METHOD OF GENERATING IMAGE DATA THEREOF - When correcting the acoustic wave refraction occurring on the interface between mediums having different sound speeds by Snell's law, an applicable back-projection method is limited to a time domain method. An image data generating method performed to receive and convert an acoustic wave generated by irradiating a subject with light into a first electrical signal with an acoustic wave receiver via a medium having a sound speed different from that of the subject, and to generate image data based on the first electrical signal is provided, wherein a second electrical signal obtained when the acoustic wave is received at each virtual reception point is generated based on the first electrical signal through an integral calculation performed by using an advanced Green's function, and image data is generated based on the second electrical signal. | 07-28-2011 |
20110182137 | ULTRASONIC DIAGNOSTIC APPARATUS - An ultrasonic diagnostic apparatus provided with an ultrasonic image measuring unit configured to measure an ultrasonic image of an object to be examined, a display unit configured to display the ultrasonic image, an input unit configured to input parameters for controlling the ultrasonic image measuring unit and the display unit, and a control unit configured to control the ultrasonic image measuring unit and the display unit by means of the parameters. | 07-28-2011 |
20110188342 | DEVICE AND METHOD FOR ACOUSTIC DISPLAY - A device for acoustic display of a position of an object in a reproduction space, a plurality of loudspeakers being arranged in the reproduction space at spatially different positions such that different spatial positions may be represented acoustically by differently driving the loudspeakers, includes a signal associater and a loudspeaker driver. The signal associater is configured to associate an acoustic signal to the object. The loudspeaker driver is configured to establish one or several loudspeaker signals for the plurality of loudspeakers, wherein the one or several loudspeaker signals by which the position of the object is displayed are based on the acoustic signal associated to the object by the signal associater. The one or several loudspeaker signals may be established such that, when reproducing the one or several loudspeaker signals, the position of the object in the reproduction space is displayed acoustically. | 08-04-2011 |
20110242932 | CMUT CELL FORMED FROM A MEMBRANE OF NANOTUBES OR NANOWIRES OR NANORODS AND DEVICE FOR ULTRA HIGH FREQUENCY ACOUSTIC IMAGING INCLUDING MULTIPLE CELLS OF THIS KIND - A cMUT-type capacitive electroacoustic transducer including: at least one membrane configured to oscillate under effect of an electric field and/or an acoustic wave, wherein the membrane is formed from one or more layers of juxtaposed nanotubes or nanowires or nanorods, and an acoustic imaging device or UHF sonar including such transducers. | 10-06-2011 |
20120069701 | ULTRASONIC TRANSDUCER AND ULTRASONIC DIAGNOSTIC APPARATUS PROVIDED WITH SAME - For disposing projections of insulating film protruding into a hollow part in CMUT in order to suppress injection of electrical charge into the insulating film due to contact of a lower surface of a membrane with a lower surface of the hollow part, there are provided a structure of disposed projections preferred for suppressing increase in driving voltage for CMUT and decrease in receiving sensitivity, and an ultrasonic diagnostic apparatus using the same. The ultrasonic transducer of the present invention comprises a first electrode, a lower insulating film formed on the first electrode, an upper insulating film provided so as to form a hollow part above the lower insulating film, and a second electrode formed on the upper insulating film, and is characterized in that the lower insulating film or the upper insulating film has projections on the side of the hollow part, and the first electrode or the second electrode has openings formed at positions corresponding to the positions at which the projections are formed. | 03-22-2012 |
20120092954 | ULTRASONIC TRANSMITTING/RECEIVING CIRCUIT AND ULTRASONIC DIAGNOSTIC APPARATUS - An ultrasonic transmitting/receiving circuit equipped with: a semiconductor circuit element which comprises at least three terminals including a first terminal connected to a plurality of transducer elements that constitute an ultrasonic probe, a second terminal connected to a transmission signal generating circuit, and a third terminal serving as an output terminal of an amplifier of a reception signal from the transducer element, and which has a function of amplifying a signal inputted from one terminal by the other terminal and outputting the amplified signal between at least two terminals among the above-said three terminals; and a control unit which performs control so as to cause the semiconductor circuit element to perform a first function of functioning as a switch for inputting a transmission signal to the transducer element and a second function of amplifying the reception signal received from the transducer element. | 04-19-2012 |
20120099394 | ULTRASONIC DIAGNOSTIC APPARATUS AND ULTRASONIC TRANSMISSION/RECEPTION METHOD - According to one embodiment, a reception unit generates reception beam data set groups based on echo signals. Each of the reception beam data set groups includes reception beam data sets respectively corresponding to reception beams associated with parallel signal processing. Each of the reception beam data sets is generated based on echo signals from transducers associated with a corresponding reception position. A scanning control unit sets the spatial arrangement of the reception beams. The reception beams are arranged at unequal intervals. A synthesizing unit generates synthetic beam data sets associated with reception positions based on the reception beam data set groups. Each of the synthetic beam data sets is obtained by synthesizing reception beam data sets associated with the same reception position. An image generation unit generates ultrasonic image data based on the synthetic beam data sets. | 04-26-2012 |
20120120758 | METHODS FOR READING A FEATURE PATTERN FROM A PACKAGED DIE - Methods for tracking the identity of die after singulation from a wafer. The product chips and die include a pattern of features formed in a metallization level of a back-end-of-line (BEOL) wiring structure. The features in the pattern contain information relating to the die, such as a unique identifier that includes a wafer identification used to fabricate the die and a product chip location for the die on a wafer. The features may be imaged with the assistance of a beam of electromagnetic radiation that penetrates into a packaged die and is altered by the presence of the features in a way that promotes imaging. | 05-17-2012 |
20120134233 | SYSTEMS AND METHODS FOR ACOUSTIC RADIATION FORCE IMAGING WITH ENHANCED PERFORMANCE - Methods and systems for ultrasound imaging are presented. The method includes configuring a plurality of apertures in a transducer array of an ultrasound imaging device, where the apertures include one or more transducer elements. Further, one or more reference pulses are delivered to a plurality of target regions to detect corresponding initial positions. Additionally, a pushing pulse is delivered to at least two of the plurality of target regions through at least two of the plurality of apertures. To that end, the plurality of apertures is focused at specific target regions in the plurality of target regions using a compound delay profile. Subsequently, one or more tracking pulses are delivered to the plurality of target regions for detecting corresponding displacements of at least the specific target regions in the plurality of target regions. Further, ultrasound imaging methods that deliver a plurality of short pushing pulse segments and/or tracking pulses to corresponding target regions in an interleaving manner are also described. | 05-31-2012 |
20120147698 | LARGE-AREA ULTRASOUND CONTACT IMAGING - An embodiment is a method and apparatus for ultrasonic contact imaging. A thin-film transistor (TFT) array is deposited on a substrate. A receiver having a plurality of receiver elements is deposited on the TFT array to receive a received signal. A transmitter adjacent to the receiver generates a transmit signal at an ultrasonic frequency. The transmit signal is reflected from a surface to produce a reflected signal. The received signal is a superposition of the transmit signal and the reflected signal as result of interference. The received signal is representative of differences in acoustic impedances across the surface. | 06-14-2012 |
20120195161 | SYSTEMS AND METHODS FOR ULTRASOUND BEAM FORMING DATA CONTROL - Disclosed are systems and methods which efficiently control storage of and/or access to data which includes repetitive data or data which is used by different modes, processes, etcetera. Embodiments provide control for storage of and/or access to large amounts of data used in ultrasound system beam forming for image generation using a hierarchy of sequencers for controlling storage of and/or access to data. A frame sequencer may provide control at a frame level while an address sequencer is implemented to provide control at a data access level. | 08-02-2012 |
20120213031 | NETWORKED SONAR OBSERVATION OF SELECTED SEABED ENVIRONMENTS - A sonar transducer network for observing a seabed includes a controller. A first transducer assembly includes a first acoustic transducer to convert a first ping to a first electrical signal; and a first transducer processor to receive a first electrical signal from the first acoustic transducer to generate the first transducer data. At least one second transducer assembly is spaced apart from the first transducer assembly. The second transducer assembly includes a second acoustic transducer to convert a second ping to a second electrical signal. The second transducer processor receives the second electrical signal from the second acoustical transducer to generate second transducer data. A network bus communicates first transducer data and second transducer data with the controller. | 08-23-2012 |
20120243367 | Ultrasonic Signal Processor for a Hand Held Ultrasonic Diagnostic Instrument - A hand held ultrasonic instrument is provided in a portable unit which performs both B mode and Doppler imaging. The instrument includes a transducer array mounted in a hand-held enclosure, with an integrated circuit transceiver connected to the elements of the array for the reception of echo signals. A digital signal processing circuit performs both B mode and Doppler signal processing such as filtering, detection and Doppler estimation, as well as advanced functions such as assembly of multiple zone focused scanlines, synthetic aperture formation, depth dependent filtering, speckle reduction, flash suppression, and frame averaging. | 09-27-2012 |
20120250454 | METHOD AND SYSTEM FOR SHAPING A CMUT MEMBRANE - The present disclosure is directed at a method and system for shaping a membrane a capacitive micromachined ultrasonic transducer, or CMUT. A bias voltage is asymmetrically applied to a membrane of the CMUT such that the membrane is directed to send ultrasonic waves that propagate along a propagation axis that is not parallel with a propagation axis along which ultrasonic waves propagate when the bias voltage is symmetrically applied to the membrane. In this way, the ultrasonic waves that are generated using a CMUT array can be physically steered to or focused on a target. Steering and focusing ultrasonic waves by altering the shape of the membrane by asymmetrically biasing the membrane reduces grating lobes and can also be used as part of an adaptive control system that can improve ultrasound image quality. | 10-04-2012 |
20120257472 | MEASUREMENT APPARATUS, MOVEMENT CONTROL METHOD, AND PROGRAM - Generally, as the time for mechanical scanning of an acoustic wave receiver increases, the load on an examinee also increases. The present invention provides the calculation of a target speed at which an acoustic wave receiver is caused to move for the measurement of an acoustic wave, using data of an emission period of pulsed light and data of an interval between target measurement positions in a subject being examined. In addition, the acoustic wave receiver is caused to move so as to reach an initial target measurement position at the target speed at a time when initial pulsed light for measuring an acoustic wave is emitted. After the target speed has been reached, the acoustic wave receiver is caused to move at a uniform speed which is equal to the target speed. | 10-11-2012 |
20120269031 | ULTRASONIC TRANSMITTER AND RECEIVER WITH COMPLIANT MEMBRANE - An ultrasonic transmitter and receiver includes a MEMS composite transducer. The MEMS composite transducer includes a substrate. Portions of the substrate define an outer boundary of a cavity. A first MEMS transducing member includes a first size. A first portion of the first MEMS transducing member is anchored to the substrate. A second portion of the first MEMS transducing member extends over at least a portion of the cavity and is free to move relative to the cavity. A second MEMS transducing member includes a second size that is smaller than the first size of the first MEMS transducing member. A first portion of the second MEMS transducing member is anchored to the substrate. A second portion of the second MEMS transducing member extends over at least a portion of the cavity and is free to move relative to the cavity. A compliant membrane is positioned in contact with the first and second MEMS transducing members. A first portion of the compliant membrane covers the first and second MEMS transducing members. A second portion of the compliant membrane is anchored to the substrate. | 10-25-2012 |
20120275261 | BEAMFORMER, DIAGNOSTIC SYSTEM, MEDICAL IMAGE SYSTEM, AND METHOD FOR DISPLAYING DIAGNOSTIC IMAGE - A beamformer for forming a reception beam using a multichannel signal reflected from a subject is provided. The beamformer includes a signal generator that may generate a plurality of signals to which different apodization functions are applied, with respect to the multichannel signal, an estimator that may estimate a signal predominant component and a noise predominant component from the plurality of signals, a weight calculator that may calculate a weight to be applied to the signal predominant component according to each of channels, using the estimated signal predominant component and the estimated noise predominant component, and a weight applier that may apply the calculated weight to the estimated signal predominant component. | 11-01-2012 |
20120275262 | SECTION-ILLUMINATION PHOTOACOUSTIC MICROSCOPY WITH ULTRASONIC ARRAY DETECTION - Imaging systems, probes for imaging systems, and methods for noninvasive imaging are disclosed. In one example, a probe for use with an imaging system includes a slit configured to spatially filter a light beam from a light source. The probe includes a focusing device configured to cylindrically focus the spatially filtered light beam into an object, and an ultrasound transducer array configured to detect a photoacoustic signal emitted by the object in response to the cylindrically focused light beam. | 11-01-2012 |
20120281497 | ULTRASONIC OBSERVATION APPARATUS, OPERATION METHOD OF THE SAME, AND COMPUTER READABLE RECORDING MEDIUM - In a feature data space including a first coordinate system that contains at least some of sets of feature data being respectively extracted for known specimens as its coordinate components an ultrasonic observation apparatus calculates coordinate values of the feature data of a specimen in a second coordinate system and assigns display parameters corresponding to the calculated coordinate values, wherein the second coordinate system has a new coordinate axis as one of its coordinate axes, the new coordinate axis is an axis on which sum of distances between adjacent representative points is large, the representative points represent respective groups obtained by classifying the known specimens on the basis of information regarding each known specimen, the distances are obtained when the adjacent representative points, which are adjacent along a predetermined coordinate axis in the first coordinate system, are projected on a predetermined axis. | 11-08-2012 |
20120287749 | INDUSTRIAL PROCESS MONITORING AND IMAGING - Exemplary embodiments include an apparatus for imaging a volume of material contained inside a vessel. The apparatus includes a plurality of synchronized acoustic sensors positioned at a periphery of an inner volume of the vessel. A processor combines the outputs of the acoustic sensors to identify at least one ambient noise source of the industrial process generating a noise field that illuminates an internal volume of the vessel and to provide an image of the material by temporal and spatial coherent processing of the transmission and reflection of the noise field generated by the noise source. | 11-15-2012 |
20120287750 | IMAGING APPARATUS - The invention relates to an imaging apparatus ( | 11-15-2012 |
20120294113 | ULTRASONIC TRANSDUCER DRIVE CIRCUIT AND ULTRASONIC IMAGE DISPLAY APPARATUS - An ultrasonic transducer drive circuit for driving an ultrasonic transducer by outputting pulses including a positive pulse and a negative pulse to an output line is provided. The ultrasonic transducer includes a positive voltage supply circuit, a negative voltage supply circuit, a current-inflow-type ground clamp circuit configured to operate when voltage in the output line is positive voltage, and a current-outflow-type ground clamp circuit configured to operate when voltage in the output line is negative voltage, wherein the current-inflow-type ground clamp circuit is configured to enter an operation state at a time of generating the negative pulse in a state where the voltage in the output line is positive voltage, and the current-outflow-type ground clamp circuit is configured to enter an operation state at a time of generating the positive pulse in a state where the voltage in the output line is negative voltage. | 11-22-2012 |
20120300578 | SIGNAL PROCESSING APPARATUS, SIGNAL PROCESSING SYSTEM, PROBE, SIGNAL PROCESSING METHOD, AND PROGRAM - There is provided a signal processing apparatus including a focus position control unit that controls transmission focus positions to be focus positions of transmission waves transmitted by a plurality of ultrasonic vibrators and reception focus positions to be focus positions of reception waves received by the plurality of vibrators on the basis of position information regarding relative positions of the plurality of ultrasonic vibrators of which the relative positions are changeable. | 11-29-2012 |
20120307590 | PINSCREEN SENSING DEVICE - Systems and methods for sensing one or more signals include a plurality of pins, wherein the pins are independently movable relative to one another, one or more signal generators coupled to respective pins, one or more signal detectors coupled to respective pins, and a body, wherein the plurality of pins are coupled to the body. | 12-06-2012 |
20120314534 | ACOUSTIC WAVE IMAGING APPARATUS AND ACOUSTIC WAVE IMAGING METHOD - An acoustic wave imaging apparatus having: a phase aligning unit which aligns phases of received signals obtained by a plurality of acoustic wave receiving elements; a complex signal acquiring unit which generates complex signals out of the phase aligned received signals; a correlation matrix calculating unit which calculates a correlation matrix of the complex signals; and an electric power calculating unit which calculates constrained minimum power of the received signals, using the correlation matrix and a predetermined constraint vector, wherein the correlation matrix calculating unit calculates the correlation matrix at a predetermined cycle, and sequentially outputs the calculated correlation matrix to the electric power calculating unit at a predetermined cycle, and the electric power calculating unit calculates a plurality of constrained minimum powers in parallel using the calculated correlation matrices, the plurality of constrained minimum powers are corresponding to the correlation matrices respectively. | 12-13-2012 |
20120320710 | ULTRASONIC PROBE AND ULTRASONIC IMAGING APPARATUS USING THE SAME - In order to provide an ultrasonic probe capable of suppressing the influence of multiple reflections occurring on the interface of a transducer with a CMUT chip and a backing layer, an ultrasonic probe of the present invention has a structure where an acoustic lens | 12-20-2012 |
20130039147 | ULTRASONIC/PHOTOACOUSTIC IMAGING DEVICES AND METHODS - Devices are disclosed for obtaining data of a sample, particularly data capable of being processed to produce an image of a region of the sample. An exemplary device includes a light-beam source, an acoustic-wave source, an optical element, and an acoustic detector. The optical element is transmissive to a light beam produced by the light-beam source and reflective to acoustic waves produced by the acoustic-wave source. The optical element is situated to direct the transmitted light beam and reflected acoustic wave simultaneously along an optical axis to be incident at a situs in or on a sample to cause the sample to produce acoustic echoes from the incident acoustic waves while also producing photoacoustic waves from the incident light beam photoacoustically interacting with the situs. The acoustic detector is placed to receive and detect the acoustic echoes and the photoacoustic waves from the situs. The acoustic detector can comprise one or more hydrophones exploiting the acousto-electric effect. | 02-14-2013 |
20130044563 | OBJECT INFORMATION ACQUISITION APPARATUS, OBJECT INFORMATION ACQUISITION SYSTEM, DISPLAY CONTROL METHOD, DISPLAY METHOD, AND PROGRAM - An object information acquisition apparatus, configured to receive an acoustic wave from an object and acquire characteristic information of the object, includes a receiver configured to receive the acoustic wave and convert the received acoustic wave into an electric signal, a scan control unit configured to scan the receiver at least in one direction, and a display control unit configured to produce guide information for displaying a guide on a display unit, wherein the guide is in terms of the number of times the receiver is scanned in a first direction and wherein the guide information is produced using information associated with a specified region defined by a user as a region in which characteristic information is to be acquired. | 02-21-2013 |
20130064035 | ELECTROMECHANICAL TRANSDUCER - An electromechanical transducer according to an embodiment of the present invention is capable of selectively performing a transmitting and receiving operation by using elements of different shapes. The electromechanical transducer has a plurality of cells, each of which has a vibrating film including two electrodes provided with a gap therebetween, two driving and detecting units, a potential difference setter, and a switch. Each of the driving and detecting units implements a transmitting and/or a receiving function. A first or second element includes first or second electrodes which are electrically connected and further connected to the common first or second driving and detecting unit, respectively. The potential difference setter sets a predetermined potential difference between the reference potentials of the first and second driving and detecting units, respectively, and the switch switches between the first and second driving and detecting units to perform the transmitting and receiving operation. | 03-14-2013 |
20130064036 | ULTRASOUND SYSTEM AND SIGNAL PROCESSING UNIT CONFIGURED FOR TIME GAIN AND LATERAL GAIN COMPENSATION - The present invention provides an ultrasound system, which comprises: a signal acquiring unit to transmit an ultrasound signal to an object and acquire an echo signal reflected from the object; a signal processing unit to control TGC (Time Gain Compensation) and LGC (Lateral Gain Compensation) of the echo signal; a TGC/LGC setup unit adapted to set TGC and LGC values based on TGC and LGC curves inputted by a user; and an image producing unit adapted to produce an ultrasound image of the object based on the echo signal. The signal processing unit is further adapted to control the TGC and the LGC of the echo signal based on the TGC and LGC values set by the TGC/LGC setup unit. | 03-14-2013 |
20130064037 | Method and apparatus for ultrasound image acquisition - Apparatus for ultrasound image acquisition is integrated into the casing of an ultrasound probe that includes an array of electro-acoustic transducers, which transmit and receive ultrasound pulses. The array communicate with a processing unit, to which reception signals are fed, and are connected to a unit generating signals for exciting the transmission of ultrasound waves. In one aspect of the invention, at least the processing unit is fitted into the probe casing and is configured to convert the reception signals into an image, and to generate video signals for generating an image on a display unit. The transmission between the probe and a remote unit displaying and possibly storing the images as video signals may be operated wirelessly. | 03-14-2013 |
20130083621 | SYSTEMS AND METHODS FOR SEISMIC SURVEY - The systems and methods described herein relate to systems and methods for synthetic aperture sonar (SAS) or radar including seismic surveying. | 04-04-2013 |
20130107662 | PHOTOACOUSTIC MICROSCOPY (PAM) SYSTEMS AND RELATED METHODS FOR OBSERVING OBJECTS | 05-02-2013 |
20130121106 | IMAGE INFORMATION OBTAINING APPARATUS AND CONTROL METHOD FOR SAME - An image information obtaining apparatus having: a light source; a transducer which detects an acoustic wave and converts the acoustic wave to an electrical signal; a signal processing unit which generates image data, using the electrical signal; and a memory unit which stores a reference acoustic signal produced by the transducer detecting an acoustic wave generated when light is irradiated from the light source onto a phantom having acoustic parameters and optical parameters substantially the same as an object and converting the acoustic wave to an electrical signal, wherein the transducer produces an object acoustic signal by converting the acoustic wave, generated when light is irradiated onto an object from the light source, to an electrical signal; and the signal processing unit subtracts the reference acoustic signal from the object acoustic signal and generates image data from the signal resulting from this subtraction. | 05-16-2013 |
20130128690 | METHOD AND APPARATUS FOR SIGNAL PATH EQUALIZATION IN A SCANNING ACOUSTIC MICROSCOPE - A scanning acoustic microscope includes a signal processor and one or more signal paths. In operation, each signal path couples an ultrasonic transducer to the signal processor that processes signals received from the signal paths to produce an ultrasonic scan image. Each signal path has a response characteristic that includes a response characteristic of the ultrasonic transducer. In order to compensate for variations between the signal paths or variations between different transducers in the same signal path, at least one of the signal paths includes a signal path equalizer. The equalizer may be responsive to a set of equalization coefficients. The coefficients are selected such that the response characteristic of the signal path including the equalizer more closely matches a reference characteristic response. The equalizer may operate on a transmitted or received signal or be used to generate an ultrasonic pulse. | 05-23-2013 |
20130128691 | MOTION-COMPENSATED ULTRASOUND IMAGES - An echo processor ( | 05-23-2013 |
20130142009 | ACOUSTIC IMAGING - In various embodiments, apparatus and methods are provided to perform acoustic imaging. An acoustic wave can be acquired at a detector, where the acoustic wave propagates from a target to the detector. The target may be acoustically illuminated to provide the acoustic wave. A signal from the detector in response to acquiring the acoustic wave can be processed in a model such that the processing implements a synthetic acoustic lens to generate an image of the target. Additional apparatus, systems, and methods are disclosed. | 06-06-2013 |
20130142010 | ULTRASONIC IMAGING APPARATUS AND THREE-DIMENSIONAL IMAGE DISPLAY METHOD USING ULTRASONIC IMAGE - The ultrasonic imaging apparatus of the present invention is provided with a 3-dimensional image construction unit configured to construct a 3-dimensional image using plural ultrasonic tomographic images obtained when the ultrasonic probe is moved in a direction intersecting the direction of the ultrasonic tomographic images; and an ultrasonic probe moving direction setting unit configured to set the moving direction of the ultrasonic probe, using an ultrasonic tomographic image displayed on the screen of the display unit as a reference, in either a first direction which intersects with the direction of the tomographic image or a second direction of opposite orientation to the first direction; wherein the control unit controls the arrangement order of the plural ultrasonic tomographic images in the 3-dimensional image constructed in the 3-dimensional image construction unit according to the moving direction of the ultrasonic probe set by the moving direction setting unit of the ultrasonic probe. | 06-06-2013 |
20130176816 | ULTRASONIC TRANSDUCER, ULTRASONIC PROBE, DIAGNOSTIC INSTRUMENT, AND ELECTRONIC INSTRUMENT - An ultrasonic transducer includes a first flexible substrate, a plurality of ultrasonic elements and a substrate deforming part. The ultrasonic elements are disposed on the first flexible substrate, and configured and arranged to transmit and receive ultrasonic waves. The substrate deforming part is configured and arranged to flex the first flexible substrate in a first direction and in a second direction that intersects with the first direction. | 07-11-2013 |
20130182530 | CONVERTER AND MEASURING APPARATUS - Provided is a converter that converts sound waves into electrical signals, comprising a piezoelectric section including a plurality of piezoelectric elements that each convert a sound wave detected by a detection surface into one of the electrical signals; and a multilayer substrate to which the piezoelectric section is fixed. The multilayer substrate includes a plurality of signal wires that correspond respectively to the piezoelectric elements and each transmit the electrical signal output by the corresponding piezoelectric element; and a shield portion that electromagnetically shields at least a portion of the signal wires. The piezoelectric section is fixed to the multilayer substrate such that a surface of the multilayer substrate on which the piezoelectric elements are fixed is inclined with respect to the detection surfaces of the piezoelectric elements. | 07-18-2013 |
20130188446 | ULTRASOUND PROBE AND ULTRASOUND DIAGNOSIS APPARATUS - An ultrasound probe is provided that includes piezoelectric bodies, each of which is provided with electrodes on the front surface on the side from which ultrasound is emitted and a rear surface opposing the front surface. At least a part of the ultrasound probes is disposed in a curved manner. A flexible printed circuit board comprises a first part that is provided in parallel with the curved surface of the piezoelectric bodies in a circular direction on the rear surface side of the piezoelectric bodies, and a second part that extends from the first part near the end part of the arranged piezoelectric bodies and further extends to the electronic circuit, the electric circuit, or the interface. Furthermore, the flexible printed circuit board is provided with a wiring pattern that conducts between at least one electrode of the piezoelectric body and the electronic circuit, the electric circuit, or the interface. | 07-25-2013 |
20130194890 | AUTOMATED SWEEP AND EXPTORT OF 2D ULTRASOUND IMAGES OF 3D VOLUMES - An ultrasound system ( | 08-01-2013 |
20130208562 | APPARATUS FOR ULTRASOUND HARMONIC IMAGING AND METHOD THEREOF - An apparatus for ultrasound harmonic imaging and method therefor are provided. The apparatus includes a signal transmitting unit, a signal receiving unit and an image processing unit. The signal transmitting unit transmits a linearly or non-linearly frequency modulated up-sweep signal and a linearly or non-linearly frequency modulated down-sweep signal to a reflective body. The signal receiving unit receives an inter-modulation component generated through coupling between the up-sweep and the down-sweep signal and a second harmonic component of the up-sweep or the down-sweep signal reflected by the reflective body. The image processing unit is connected to the signal receiving unit, and performs ultrasound harmonic imaging to obtain an ultrasound harmonic image according to the inter-modulation component and the second harmonic component of the up-sweep or down-sweep signal, so as to improve image quality of harmonic imaging. | 08-15-2013 |
20130223184 | ULTRASONIC TRANSDUCER ELEMENT CHIP, PROBE HEAD, PROBE, ELECTRONIC INSTRUMENT, AND ULTRASONIC DIAGNOSTIC DEVICE - An ultrasonic transducer element chip includes a substrate, a plurality of ultrasonic transducer elements, a wiring part and an additional wiring part. The substrate defines a plurality of openings arranged in an array pattern. Each of the ultrasonic transducer elements is provided in each of the openings. The wiring part is connected to the ultrasonic transducer elements. The additional wiring part is disposed in a peripheral region between an outline of the array pattern of the openings and an outer edge of the substrate in a plan view as viewed along a thickness direction of the substrate. The additional wiring part is electrically insulated from the wiring part. The additional wiring part is longer than a shortest distance between the outline of the array pattern and the outer edge of the substrate in the plan view. | 08-29-2013 |
20130250719 | Surface Visualization System for Indicating Inconsistencies - A method and apparatus for indicating an inconsistency. An apparatus comprises a platform, a location system, a transducer system, a projector system, and a data processing system. The platform is configured to move on a surface of an object. The location system is configured to generate location information for the platform on the surface of the object. The transducer system is configured to send signals into the object and receive a response to the signals. The projector system is configured to project an image onto the surface of the object. The data processing system is configured to generate the image using the response. An indication of an inconsistency in the image projected onto the surface of the object corresponds to a location of the inconsistency in the object. The data processing system is configured to control the projector system to project the image onto the surface of the object. | 09-26-2013 |
20130258802 | ULTRASONIC TRANSDUCER ELEMENT CHIP, PROBE, ELECTRONIC INSTRUMENT, AND ULTRASONIC DIAGNOSTIC DEVICE - An ultrasonic transducer element chip includes a substrate, ultrasonic transducer elements and a reinforcing member. The substrate defines openings arranged in an array pattern. The ultrasonic transducer elements are respectively disposed at the openings on a first surface of the substrate. The reinforcing member is fixed on a second surface of the substrate opposite to the first surface of the substrate. The reinforcing member includes linear groove parts formed on a surface of the reinforcing member fixed on the substrate so that internal spaces of the openings and an external space of the substrate are in communication with each other via the linear groove parts. The linear groove parts extend along a plane of the surface of the reinforcing member, and they are arranged at an interval in a first direction smaller than a width of each opening on the second surface of the substrate in the first direction. | 10-03-2013 |
20130258803 | ULTRASONIC TRANSDUCER ELEMENT CHIP, PROBE, ELECTRONIC INSTRUMENT, AND ULTRASONIC DIAGNOSTIC DEVICE - An ultrasonic transducer element chip includes a substrate, a plurality of ultrasonic transducer elements, a reinforcing member and a ventilation passage. The substrate defines a plurality of openings arranged in an array pattern. The ultrasonic transducer elements are respectively disposed at the openings on a first surface of the substrate. The reinforcing member is fixed on a second surface of the substrate opposite to the first surface of the substrate to reinforce the substrate. Through the ventilation passage, internal spaces of the openings and an external space of the substrate are in communication with each other. | 10-03-2013 |
20130258804 | ULTRASONIC DIAGNOSTIC APPARATUS AND IMAGE PROCESSING METHOD - Provided is an ultrasonic diagnostic apparatus including an STIC function, wherein, in order to make it possible to reproduce images with the correct time phase by preventing erroneous image reproduction due to time phase estimation failure, the ultrasonic diagnostic apparatus includes: a time phase estimation unit that uses echo data to estimate time phase information of periodic movement of an examination object included in the echo data; an image processing unit that uses the echo data and the time phase information estimated by the time phase estimation unit to create an ultrasonic image of the examination object at each time phase; and, in addition, a time phase correction unit that corrects the time phase information estimated by the time phase estimation unit. The image processing unit creates an ultrasonic image using the time phase information corrected by the time phase correction unit. | 10-03-2013 |
20130301380 | METHOD FOR DUAL MODALITY OPTOACOUSTIC IMAGING - A real-time imaging method that provides ultrasonic imaging and optoacoustic imaging coregistered through application of the same hand-held probe to generate and detect ultrasonic and optoacoustic signals. These signals are digitized, processed and used to reconstruct anatomical maps superimposed with maps of two functional parameters of blood hemoglobin index and blood oxygenation index. The blood hemoglobin index represents blood hemoglobin concentration changes in the areas of diagnostic interest relative to the background blood concentration. The blood oxygenation index represents blood oxygenation changes in the areas of diagnostic interest relative to the background level of blood oxygenation. These coregistered maps can be used to noninvasively differentiate malignant tumors from benign lumps and cysts. | 11-14-2013 |
20130301381 | METHOD AND APPARATUS FOR GENERATING VOLUME IMAGE - A volume image generating method including transmitting an ultrasonic signal to a target body divided into a plurality of regions and generating a first sub-volume image corresponding to a first region from among the plurality of regions of the target body, based on a response signal reflected from the target body; generating a second sub-volume image corresponding to a second region contacting the first region from among the plurality of regions; connecting the second sub-volume image to the first sub-volume image according to a location relationship between the first region and the second region of the target body; and re-generating the second sub-volume image based on a concordance rate between sectional images of the first and second sub-volume images that contact each other, and connecting the re-generated second sub-volume image to the first sub-volume image. | 11-14-2013 |
20130301382 | Method and Device for Ultrasound Imaging - A method of high-resolution ultrasound imaging, in which transducers are made to emit ultrasound waves in a field of observations containing micro bubbles, by making the micro bubbles burst one by one in tandem with the emissions of ultrasound waves. At each shot j of an ultrasound wave, raw reverberated signals S | 11-14-2013 |
20130308419 | ULTRASONIC NON-DESTRUCTIVE EVALUATION METHODS FOR FRICTION-WELDED BLISKS - The disclosed embodiments generally relate to non-destructive evaluation methods. More particularly, the disclosed embodiments relate to ultrasonic non-destructive evaluation methods for the evaluation of friction welded bladed discs (“blisks”). In an embodiment, a method for non-destructive evaluation of a bladed disc structure includes identifying a region of interest on the bladed disc structure; positioning an ultrasonic transducer and receiver in the region of interest; scanning the region of interest using the ultrasonic transducer and receiver to produce a scan image; and comparing the scan image against a reference image to determine the presence of an anomaly in the region of interest. | 11-21-2013 |
20130308420 | METHOD AND APPARATUS FOR PRE-STACK DEGHOSTING OF SEISMIC DATA - A method for deghosting seismic data collected with a seismic system, the seismic data being related to a subsurface of a body of water. The method includes receiving the seismic data recorded by detectors distributed along a variable-depth profile; calculating migrated (d | 11-21-2013 |
20130322204 | TEST-OBJECT-INFORMATION ACQUISITION APPARATUS AND TEST-OBJECT-INFORMATION ACQUISITION METHOD - A test-object-information acquisition apparatus includes a light radiating unit, a first probe that receives an acoustic wave generated in a test object in response to the test object being irradiated with light radiated by the light radiating unit, a second probe that radiates an ultrasound beam towards the test object and receives a reflected wave from the test object, an ultrasound controller configured to control the second probe, and a scanning unit configured to cause the light radiating unit and the first and second probes to perform a reciprocating scan process across the test object. The ultrasound controller varies a radiation method for radiating the ultrasound beam from the second probe to the test object so that the radiation method is different between an outbound scan and a return scan of the reciprocating scan process. | 12-05-2013 |
20130336086 | ITEM VALIDATION - A method and apparatus are disclosed for determining if an item of media is invalid. The method includes providing an ultrasound image of an item of media, determining a plurality of regions of the image that satisfy a pre-determined condition and determining that an item of media is invalid if the location of said regions satisfies a pre-determined condition. | 12-19-2013 |
20130336087 | MARINE VIBRATOR SWEEPS - Marine seismic survey using one or more marine seismic vibrators, where the vibrator sweep function is based on a quality requirement, which may be a final image quality requirement or an environmental requirement. The sweep function may be nonlinear and the energy spectrum may not match the energy spectrum of an airgun. | 12-19-2013 |
20130343151 | UNDERWATER DETECTION DEVICE - An underwater detection system is provided that can effectively use a discrimination result. A fish detector of the system is configured to implement a discrimination function including a fish species discrimination function; however, a fish detector and a sonar of the system do not comprise such a discriminator including a fish species discriminator. The fish detector transmits various discrimination results such as fish species discrimination, etc., through an onboard LAN to the fish detector or the sonar. The fish detector and the sonar superimpose various received discrimination results on the detection result of the device itself and display them on a display. | 12-26-2013 |
20140036620 | 4D DATA ULTRASOUND IMAGING SYSTEM AND CORRESPONDING CONTROL PROCESS - An embodiment of a 4D data ultrasound imaging system includes a matrix of transducer elements suitable for transmitting and for receiving ultrasound signals, said transducer elements being divided into sub-matrixes suitable for receiving in a delayed way a same acoustic signal, a plurality of reception channels with one of said reception channels being associated with one of said transducer elements, a beamformer device including a plurality of storage cells arranged in re-phasing matrixes, each re-phasing matrix being associated with a corresponding sub-matrix with each row associated with one of said transducer elements, said storage cells including an input storage stage that is selectively associated with a row and a reading output stage that is selectively associated with a buffer; each storage cell that belongs to a same column has the input stage that is dynamically activated in sequential times with respect to another storage cell of the same column for storing the same delayed acoustic signal, said storage cells that belong to the same column have the output stage that is simultaneously activated. | 02-06-2014 |
20140050046 | ACOUSTIC IMAGING OF OBJECTS IN OPTICALLY OPAQUE FLUIDS - The present invention is a method and an apparatus that can image objects immersed in optically opaque fluids using ultrasound in a confined space and in a harsh environment. If the fluid is not highly attenuating at frequencies above 1 MHz, where commercial ultrasound scanners are available, such scanners can be adapted for imaging in these fluids. In the case of highly attenuating fluids, such as drilling mud, then a low frequency collimated sound source is used. | 02-20-2014 |
20140064021 | OBJECT INFORMATION ACQUISITION APPARATUS, DISPLAY METHOD, AND STORAGE MEDIUM - An object information acquisition apparatus according to the present invention includes a plurality of conversion elements configured to receive waves reflected at each position inside an object, and convert the reflected waves into a plurality of received signals, a fixed signal processing unit configured to apply addition with a predetermined weight to the plurality of received signals to acquire first distribution information, an adaptive signal processing unit configured to apply adaptive signal processing to the plurality of received signals to acquire second distribution information, and a display control unit configured to input the first distribution information and the second distribution information, and output image information to a display unit, wherein the display control unit outputs image information for displaying in parallel in the same screen an image of the first distribution information, an image of the second distribution information or a combined image of the first and second distribution information. | 03-06-2014 |
20140064022 | OBJECT INFORMATION OBTAINING APPARATUS, DISPLAY METHOD, AND STORAGE MEDIUM - An object information obtaining apparatus according to the present invention includes a fixed signal processing unit configured to perform addition processing with a predetermined weight by using a plurality of receiving signals to obtain first distribution information, and an adaptive signal processing unit configured to perform adaptive signal processing with a weight adaptively changing according to the receiving signals by using the plurality of receiving signals to obtain second distribution information, wherein the display control unit, upon reception of information about a specified area in the image of the first distribution information input by the user in a state where the image of the first distribution information is displayed, is configured to output image information for displaying on the display unit an image of the second distribution information or the combined image for the first and second distribution information, corresponding to the specified area. | 03-06-2014 |
20140064023 | OBJECT INFORMATION ACQUISITION APPARATUS, DISPLAY METHOD, AND STORAGE MEDIUM - An object information acquisition apparatus according to the present invention includes a fixed signal processing unit configured to perform addition processing with a predetermined weight on a plurality of receiving signals to acquire first distribution information, and an adaptive signal processing unit configured to perform on the plurality of receiving signals adaptive signal processing with a weight adaptively changing according to the receiving signals to acquire second distribution information, wherein the display control unit receives enlargement instruction information for the image of the first distribution information input by the user in a state where the image of the first distribution information is displayed, and outputs image information for displaying on the display unit an enlarged image of the image of the second distribution information or an enlarged image of the combined image of the first and second distribution information. | 03-06-2014 |
20140064024 | DOWNSCAN IMAGING SONAR - A downscan imaging sonar utilizes a linear transducer element to provide improved images of the sea floor and other objects in the water column beneath a vessel. A transducer array may include a plurality of transducer elements and each one of the plurality of transducer elements may include a substantially rectangular shape configured to produce a sonar beam having a beamwidth in a direction parallel to longitudinal length of the transducer elements that is significantly less than a beamwidth of the sonar beam in a direction perpendicular to the longitudinal length of the transducer elements. The plurality of transducer elements may be positioned such that longitudinal lengths of at least two of the plurality of transducer elements are parallel to each other. The plurality of transducer elements may also include at least a first linear transducer element, a second linear transducer element and a third linear transducer element. | 03-06-2014 |
20140078860 | INTERFERENCE NOISE ATTENUATION METHOD AND APPARATUS - A method for determining interference noise recorded in a first seismic survey of a subsurface generated by a source in a second seismic survey. The method includes receiving seismic data recorded by seismic sensors of the first seismic survey, wherein the seismic data includes seismic waves that originate from the first seismic survey and seismic waves that originate from the second seismic survey; receiving actual relative shooting timing or actual shooting timing of seismic sources of the first and second seismic surveys; applying a processing algorithm to the seismic data to calculate the interference noise, wherein the processing algorithm that takes into consideration the actual relative shooting timing or the actual shooting timing of the seismic sources; and generating a final image of the subsurface based on the recorded seismic data from which the interference noise is subtracted. | 03-20-2014 |
20140098630 | ACOUSTIC WAVE MEASURING APPARATUS - An acoustic wave measuring apparatus includes: a probe having a plurality of transducers that are capable of converting an acoustic wave into an electric signal and vice versa; a transmitting and receiving unit that includes a plurality of channels connected to the probe, generates an acoustic wave from the probe, and obtains a reception signal of the probe; a plurality of switches that switch connections between the transducers and the channels; and an image generating unit that generates an image from the reception signal. The transducers include a central element row and an end portion element row, and the plurality of channels are respectively connected to the transducers on the central element row and the transducers on the end portion element row alternately via the switches. | 04-10-2014 |
20140104978 | TELEVIEWER IMAGE WOOD-GRAIN REDUCTION TECHNIQUES - Measurements made by a transducer assembly for downhole imaging are affected by reverberations between the transducer and the window on the outside of the assembly. The reverberations result in a stationary noise on the image. Hardware solutions to improve signal-to-noise ratio includes using a composite transducer, adjusting the distance between the transducer and the window. SNR can also be improved by processing techniques that include stacking, fitting a sinusoid to the reverberation, by envelope peak detection, and by applying a notch filter. | 04-17-2014 |
20140104979 | Ground-Penetrating Tunnel-Detecting Active Sonar - A ground-penetrating tunnel-detecting active sonar launches two different monotonic acoustic beams down into the ground from the surface. If the two separate monotonic acoustic waves arrive at a stress field, they will mix and produce a frequency difference heterodyne due to the inherent pressure nonlinearities in the solid medias. Any sonar returns are bandpass filtered so only an acoustic frequency difference heterodyne can pass through. The existence of a tunnel is revealed by the return of acoustic frequency difference heterodynes all coming from a more-or-less horizontal line of phase-delayed sources and directions. These phase differences can be derived from the vector values provided by the acoustic vector sensor. Three or more acoustic vector sensors on the surface can be used effectively to provide triangulations down to the tunnel to better estimate the tunnel track. | 04-17-2014 |
20140112094 | DIRECT VELOCITY SEISMIC SENSING - A disclosed direct velocity seismic sensor includes a housing, a proof mass suspended in the housing by a resilient component, and a motion dampener that damps oscillation of the proof mass to a degree that displacement of the proof mass relative to the housing is substantially linearly proportional to a rate of change of seismic displacements of the housing over a frequency range of interest. A described method for constructing a seismic sensor includes using a calculated resonant frequency to determine a damping factor that causes the displacement of the proof mass to be substantially proportional to the rate of change of seismic displacement of the housing. One illustrative disclosed system includes an optical velocity sensor and a detector where a light beam produced by the velocity sensor and a reference beam interfere at the detector, and the detector produces a signal indicative of a velocity experienced by the velocity sensor. | 04-24-2014 |
20140126323 | ULTRASOUND IMAGING SYSTEM - An ultrasonic imaging system for generating an ultrasonic image of a motion status of an object according to at least an ultrasonic motion signal generated by detecting the motion of the object is provided. The ultrasonic imaging system includes a demodulation module, an analog sub-array beamformer, a filter, an analog-to-digital converter and an image processing module. The demodulation module receives and demodulates the ultrasonic motion signal so as to generate and send at least a demodulated signal. The analog sub-array beamformer receives the demodulated signal, generates and sends an analog sub-array beam signal according to the demodulated signal. The filter receives and filtering the analog sub-array beam signal. The analog-to-digital converter converts the analog sub-array beam signal filtered by the filter into a digital sub-array beam signal. The image processing module receives the digital sub-array beam signal so as to generate an ultrasonic image of the motion of the object. | 05-08-2014 |
20140126324 | ACOUSTO-OPTIC IMAGE CAPTURE DEVICE - An acousto-optic image capture device includes: an acoustic beam source, an acoustic lens system; an acousto-optic medium portion arranged on the path of the scattered wave transmitted through the acoustic lens system; a light source that emits a light beam including monochromatic rays of light toward the acousto-optic medium portion obliquely; an imaging lens system that condenses diffracted rays of light produced by the acousto-optic medium; and an image receiving section that detects the rays of light condensed by the imaging lens system. The acoustic lens system includes at least a telecentric acoustic system and a sound-collecting acoustic system arranged on the image space. The distance between acoustic systems is equal to the sum of the respective focal lengths of the telecentric acoustic system and the sound-collecting acoustic system. The light beam is transmitted at the focal point of the sound-collecting acoustic system through the acousto-optic medium portion. | 05-08-2014 |
20140133269 | Ultrasound Imaging Probe - An elongate probe ( | 05-15-2014 |
20140140167 | Non Destructive Testing Apparatus and Method Using Ultrasound Imaging - Improved imaging is provided for structures under test that have propagation direction dependent ultrasound propagation speed or position dependent ultrasound propagation speed due to fibrous, coarse grain or single crystalline material. A set reflection points is selected in the structure under test and ultrasound propagation time delays between the reflection point or points on one hand and the plurality of positions on the other hand that fit an observed time delay of the detected reflections are computed. This may be done by means of an iterative method. In the iterative method a synthetically focused ultrasound beam is realized by summing measurements after compensation for propagation time delay from different transmitting transducers to the reflection points. Time delays to receiving transducers are measured from the arrival time of reflections of this synthetically focused ultrasound beam, and the propagation time delay from different transmitting transducers is iteratively adapted until it matches time delays corresponding to the measured arrival times. Time delays to other points in the structure under test are interpolated between the selected reflection points and used in the computation of an image of reflections within the structure under test. | 05-22-2014 |
20140146637 | SYNTHETIC APERTURE DOPPLER ULTRASOUND METHODS AND APPARATUS - Ultrasound data is acquired by a synthetic aperture technique which uses multiple ultrasound transmissions from point sources. RF data is stored and processed. Doppler velocities for pixels in an insonified region are obtained by processing the stored data. One or more pan boxes may be provided. Doppler velocities may be determined by obtaining I and Q images for a plurality of frames and performing autocorrelation across the frames for some or all pixels in the frames. | 05-29-2014 |
20140153358 | MEDICAL IMAGING SYSTEM AND METHOD FOR PROVIDING IMAGING ASSITANCE - A medical imaging system capable of providing assistance to a user for acquiring medical images. The medical imaging system includes an image acquisition unit configured to acquire a live medical image of an object in a scanning plane. An image assistance unit is configured to present at least one of one or more reference images in the scanning plane of the live medical image. The image assistance unit also presents at least one demonstration image clip for obtaining the at least one reference image using the image acquisition unit. A display unit is communicably coupled to the image acquisition unit and the imaging assistance unit. The display unit is configured to display the at least one reference image and the at least one demonstration image clip along with the live medical image. | 06-05-2014 |
20140160881 | EXPLORING A SUBSURFACE REGION THAT CONTAINS A TARGET SECTOR OF INTEREST - A system and method are disclosed for exploring a subsurface region that contains a target sector of interest. The method comprises providing information about the harmonic response for the target sector of interest and a seismic source. The method comprises controlling the seismic source to provide seismic waves in a narrowband selected on the basis of the information about the harmonic response for the target sector of interest. The method comprises activating the seismic source so as to introduce seismic waves into the subsurface sector and sensing reflections of the seismic waves at a seismic receiver. | 06-12-2014 |
20140160882 | SYSTEM AND METHOD FOR GENERATING 3D IMAGES OF NON-LINEAR PROPERTIES OF ROCK FORMATION USING SURFACE SEISMIC OR SURFACE TO BOREHOLE SEISMIC OR BOTH - A system and method of characterizing properties of a medium from a non-linear interaction are include generating, by first and second acoustic sources disposed on a surface of the medium on a first line, first and second acoustic waves. The first and second acoustic sources are controllable such that trajectories of the first and second acoustic waves intersect in a mixing zone within the medium. The method further includes receiving, by a receiver positioned in a plane containing the first and second acoustic sources, a third acoustic wave generated by a non-linear mixing process from the first and second acoustic waves in the mixing zone; and creating a first two-dimensional image of non-linear properties or a first ratio of compressional velocity and shear velocity, or both, of the medium in a first plane generally perpendicular to the surface and containing the first line, based on the received third acoustic wave. | 06-12-2014 |
20140160883 | FREQUENCY-DOMAIN BEAMFORMING - A method includes receiving from multiple transducers respective signals including reflections of a transmitted signal from a target. An image of the target is produced irrespective of sparsity of the received signals, by computing transducer-specific frequency-domain coefficients for each of the received signals, deriving, from the transducer-specific frequency-domain coefficients, beamforming frequency-domain coefficients of a beamformed signal in which the reflections received from a selected direction relative to the transducers are emphasized, and reconstructing the image of the target at the selected direction based on the beamforming frequency-domain coefficients. | 06-12-2014 |
20140177384 | Pairwise Grouping of Joint Sparsity Models for Sensing Array Processing - A scene is reconstructed by transmitting pulses into a scene from an array of transmitters so that only one pulse is transmitted by one transmitter at any one time. The one pulse is reflection by the scene and received as a set of signals. Each signal is sampled and decomposed to produce frequency coefficients stacked in a set of linear systems modeling a reflectivity of the scene. Then, a reconstruction method is applied to the set of linear systems. The reconstruction method solves each linear system separately to obtain corresponding solutions, which are shared and combined to reconstruct the scene. | 06-26-2014 |
20140177385 | METHOD AND DEVICE TO DEGHOST SEISMIC DATA - A method for processing seismic data related to a structure under a body of water to generate an image of the structure includes receiving seismic data acquired using detectors disposed on a depth-varying profile streamer. The method further includes generating, from the seismic data, first traces that correspond to traces as recorded by the detectors and migrated to water surface, and second traces that correspond to traces as would be recorded by virtual detectors mirroring the detectors relative to the water surface and migrated to water surface. The method also includes generating third traces as a sum of corresponding ones among the first traces and second traces, and fourth traces as a difference of the corresponding ones of the first and second traces. The method then includes deghosting at least one of the first and second traces using positive and negative polarity portions of the third and fourth traces. | 06-26-2014 |
20140177386 | VOLUMETRIC AND NON-VOLUMETRIC SOURCES-BASED SEISMIC SURVEY AND METHOD - A seismic survey system for surveying a subsurface. The system includes a volumetric land source buried underground for generating P-waves; a non-volumetric land source buried underground for generating P- and S-waves; plural receivers distributed about the volumetric and non-volumetric land sources and configured to record seismic signals corresponding to the P- and S-waves; and a controller connected to the volumetric land source and the non-volumetric land source and configured to shot them in a given pattern. | 06-26-2014 |
20140192615 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD, AND INFORMATION PROCESSING PROGRAM - An information processing apparatus is provided, which includes: a signal initialization unit that acquires an initial value of a pressure signal that is obtained after receive, by a receiving unit, of an elasticity wave from an object; an impulse response initialization unit that acquires an initial value of an impulse response of the receiving unit; and an output unit that outputs a modified pressure signal, wherein the output unit has: a signal modifying unit that modifies the pressure signal in use of the impulse response; a signal constraining unit that modifies the pressure signal based on a plurality of constraint conditions; an impulse response modifying unit that modifies the impulse response; and an impulse response constraining unit that modifies the impulse response based on constraint conditions which are time-bandwidth characteristics, and wherein the output unit generates the modified pressure signal by iteratively executing the processes. | 07-10-2014 |
20140192616 | ELECTRONIC DEVICE - Provided is an electronic device including a modulation unit ( | 07-10-2014 |
20140198605 | WAVEFIELD MODELLING AND 4D-BINNING FOR SEISMIC SURVEYS FROM DIFFERENT ACQUISITION DATUMS - A method for maximizing a repeatability between a base seismic survey and a monitor seismic survey of a same surveyed subsurface during a 4-dimensional (4D) project. The method includes receiving first seismic data associated with the base seismic survey; receiving second seismic data associated with the monitor seismic survey, wherein the monitor seismic survey is performed later in time than the base seismic survey; estimating subsurface reflection-points and incidence angles; determining 4D-binning based on the estimated subsurface reflection-points and incidence angles; and maximizing the repeatability between the first seismic data and the second seismic data by using the 4D-binning. | 07-17-2014 |
20140204699 | ULTRASOUND IMAGING SYSTEM - An ultrasound imaging system includes a probe with a transducer array with at least one transducer element that transmits ultrasound signal and receives echo signals produced in response thereto. The system further includes a console with a controller that controls the at least one element to transmit the ultrasound signals and receive the echo signals, and an echo processor that processes the received echoes and generates images indicative thereof. The system further includes a user interface with at least one control for interacting with the console. The user interface includes at least one recessed physical feature that facilitates identifying, through sense of touch, an operation activated by the at least one control. | 07-24-2014 |
20140204700 | Automatic Processing of Ultrasonic Data - An example method for automatically characterizing an echo contained in an ultrasonic signal generated with an ultrasonic transducer can include receiving data corresponding to the ultrasonic signal, calculating an energy ratio of the ultrasonic signal and localizing the echo using the energy ratio. The method can include windowing a portion of the ultrasonic signal around the localized echo and calculating a Fast Fourier Transform (FFT) and a Hilbert envelop of the windowed portion. The method can include estimating M echo parameters from the FFT and the Hilbert envelope of the windowed portion, where each of the M parameter vectors includes a plurality of echo parameters, calculating M parametric echo models based on each of the M echo parameter vectors and iteratively minimizing a difference between the windowed portion of the ultrasonic signal and a sum of the M parametric echo models. | 07-24-2014 |
20140204701 | APPARATUS AND METHOD FOR DETERMINATION OF FAR-FIELD SIGNATURE FOR MARINE SEISMIC VIBRATOR SOURCE - Computing device, system and method for calculating a far-field signature of a vibratory seismic source. The method includes determining an absolute acceleration of a piston of the vibratory seismic source while the vibratory seismic source generates a seismic wave; calculating, based on the absolute acceleration of the piston, a far-field waveform of the vibratory seismic source at a given point (O) away from the vibratory seismic source; and cross-correlating the far-field waveform with a driving pilot signal of the vibratory seismic source to determine the far-field signature of the vibratory seismic source. | 07-24-2014 |
20140211587 | ULTRASONIC DEVICE, ULTRASONIC PROBE, ELECTRONIC EQUIPMENT, AND ULTRASONIC IMAGING APPARATUS - An ultrasonic device includes an ultrasonic element array substrate having a plurality of ultrasonic elements that each include a piezoelectric body; a fixing frame having a recess to which the ultrasonic element array substrate is fixed, and a perforated portion formed with a through hole by opening a part of the bottom face of the recess, wherein an element-formed surface of the ultrasonic element array substrate is faced to the perforated portion; an acoustic lens secured to the fixing frame so as to cover the perforated portion; and an acoustic matching layer formed of a resin being arranged between the ultrasonic element array substrate and the acoustic lens, so as to secure them to each other. The acoustic lens and the fixing frame are in contact with each other, and the thickness of the acoustic matching layer is maintained at a fixed value. | 07-31-2014 |
20140219050 | IMAGING APPARATUS, ULTRASONIC IMAGING APPARATUS, METHOD OF PROCESSING AN IMAGE, AND METHOD OF PROCESSING AN ULTRASONIC IMAGE - A method of processing an image, including estimating a point spread function (PSF) of an acquired image, and performing image restoration on the acquired image using the estimated PSF based on a generalized Gaussian model using inverse filter frequency domain so as to perform image restoration at high speed and to prevent a halo effect. The method provides high speed processing while preventing a halo effect. The apparatus includes an ultrasonic imaging apparatus including: an ultrasonic probe to irradiate an object with ultrasonic waves and to receive ultrasonic echo waves reflected from the object; a beamformer configured to perform beam forming based on the ultrasonic echo waves received by the ultrasonic probe; an image restorer configured to restore the image beam formed by the beamformer based on a generalized Gaussian model; and an postprocessor configured to suppress noise and aliasing which are produced in the process of restoring the image. | 08-07-2014 |
20140241111 | ACOUSTIC BOREHOLE IMAGING TOOL - A logging system for producing borehole images of acoustic properties of formations penetrated by the borehole. Images of formation compressional wave and shear wave velocities are generated in real time. The system can be a LWD system with a source section that comprises a unipole, dipole, quadrupole or other acoustic source. The receiver section comprises multiple receiver stations disposed at different axial spacings from the acoustic source. The system requires that the source and receiver sections rotate synchronously as the logging tool is conveyed along the borehole. Receiver responses are measured in a plurality of azimuthal angle segments and processed as a function of rotation angle of the tool. Acoustic parameters of interest are obtained from the azimuthal receiver responses at annotated depths along the borehole and used to produce borehole images of the parameters of interest. | 08-28-2014 |
20140241112 | ULTRASONIC TRANSDUCER DEVICE, ULTRASONIC MEASUREMENT APPARATUS, HEAD UNIT, PROBE, AND ULTRASONIC IMAGING APPARATUS - An ultrasonic transducer device includes an ultrasonic element array and a common electrode wiring. The ultrasonic element array has three ultrasonic element rows with each of the three ultrasonic element rows including a plurality of ultrasonic elements arranged along a first direction and electrically connected to each other. The three ultrasonic element rows are arranged along a second direction intersecting with the first direction. The common electrode wiring is configured and arranged to supply a common voltage to at least one of the three ultrasonic element rows. The common electrode wiring extends in the first direction and is arranged between two of the three ultrasonic element rows positioned on outer sides among the three ultrasonic element rows with respect to the second direction. | 08-28-2014 |
20140241113 | ULTRASONIC TRANSDUCER DEVICE, HEAD UNIT, PROBE, AND ULTRASONIC IMAGING APPARATUS - An ultrasonic transducer device includes an ultrasonic transducer element array, a first signal terminal and a second signal terminal. The ultrasonic transducer element array has a 1 | 08-28-2014 |
20140241114 | ULTRASONIC TRANSDUCER DEVICE, HEAD UNIT, PROBE, AND ULTRASONIC IMAGING APPARATUS - An ultrasonic transducer device includes an ultrasonic transducer element array, a first signal terminal, and a second signal terminal. The ultrasonic transducer element array has a 1 | 08-28-2014 |
20140254307 | ULTRASOUND FUSION HARMONIC IMAGING SYSTEMS AND METHODS - An ultrasound imaging system includes: a harmonic filter coupled to an ultrasound transmitter to reduce transmitted harmonic components; a fundamental filter coupled with an ultrasound receiver to reduce received fundamental components; and a fusion processor configured to generate multiple frames of fusion images for two subsequent frames of ultrasound transmissions to improve frame rate. The ultrasound receiver may optionally perform signal alignment and matching to improve image quality. To improve image quality, the ultrasound system may optionally use multiple amplitude-modulated transmit pulses with different delays, or multiple transmit pulses with different amplitudes to extract harmonic signals. | 09-11-2014 |
20140269162 | SONAR AND RADAR DISPLAY - Methods, apparatuses, and computer program products are herein provided for causing presentation of sonar or radar image data over environment information. A method may include determining a position and a line of sight of a device. The method may further include determining at least one of sonar image data or radar image data associated with the position and the line of sight. The method may further include causing presentation of an image associated with the at least one of sonar image data or radar image data on a display of the device over environment information indicative of an environment currently viewable by a user through the device. Corresponding apparatuses and computer program products are also provided. | 09-18-2014 |
20140269163 | Sonar Multi-Function Display With Built-In Chirp Processing - A CHIRP-enabled sonar system includes a transducer having one or more transducer elements for receiving electrical transmission signals and converting the electrical transmission signals into acoustic pulses, and for receiving echo returns and converting acoustic energy of the echo returns into electrical return signals representative of the echo returns. The system further includes a multi-function display unit connected to the transducer so as to receive the electrical return signals representative of the echo returns. The multi-function display unit has a housing that accommodates a display unit having at least one visual display screen, and also accommodates a processor configured to transmit the electrical transmission signals in the form of CHIRP signals. The processor is further configured to perform CHIRP processing on the electrical return signals to produce sonar data. The display unit is arranged to receive the sonar data and display the sonar data as images on the visual display screen. | 09-18-2014 |
20140269164 | Sector-Scanning Device - A sector-scanning sonar imaging system with at least one sonar imaging element housed within a transducer housing coupled to a self-reciprocating mechanism, and a drive mechanism housed within a waterproof housing. The oscillating motion of the transducer housing produces a highly-detailed, photo like sector scan sonar image of the bottom and other objects surrounding the boat on which it is mounted. The drive mechanism housing may be rigidly attached to either a boat hull or to a trolling motor. The sonar imaging element housing may be removably attached to the drive mechanism, and shielded by an acoustically transparent shroud to protect the elements from damage. The sector-scanning sonar imaging system connects to a control head with display either directly, or through some other communications protocol, such as a wireless protocol. | 09-18-2014 |
20140269165 | Using Higher Order Harmonics to Determine Acoustic Impedance of Material Behind Borehole Casings - An acoustic logging tool emits a wideband acoustic pulse toward an inside surface of a borehole casing and an acoustic response is received. The acoustic response is analyzed at one or more higher order harmonics of the thickness mode resonance of the casing to determine the acoustic impedance of the material behind the casing. | 09-18-2014 |
20140293736 | LOW COMPLEXITY MOTION COMPENSATING BEAMFORMING SYSTEM AND METHOD THEREOF - A low complexity motion compensating beamforming system utilizes a probe array to fire for beamforming by synthetic apertures. The beamforming range of each firing is a region of interest (ROI), and the common area of adjacent ROI's forms the common ROI. The central image beam of the common ROI is used to generate image beam vectors, in order to analyze the cross-correlation for the corresponding low resolution images (LRI's). The analysis result is used to compute an offset for sequentially compensating and combining the LRI's to form a high resolution image (HRI). The mechanism helps improve the quality of ultrasonic beamforming and the frame rate. | 10-02-2014 |
20140293737 | ACOUSTO-OPTIC IMAGE CAPTURE DEVICE - An acousto-optic image capture device includes: an acoustic wave source to irradiating an object with an acoustic wave; an acoustic lens system which transforms a scattered wave from the object into a plane acoustic wave; an acousto-optic medium portion which is arranged so that the scattered wave transmitted through the acoustic lens system is incident there; a light source to emit a light beam in which monochromatic rays of light with different traveling directions are superposed and which is incident on the acousto-optic medium portion; an imaging lens system which condenses diffracted rays of light of the plane wave monochromatic rays of light produced by the acousto-optic medium portion; and an image receiving member which detects the rays of light condensed by the imaging lens system to output an electrical signal. The acoustic lens system includes at least two reflecting mirrors. | 10-02-2014 |
20140293738 | GAIN CONTROL CIRCUIT AND ULTRASONIC IMAGE DEVICE - A gain control circuit includes: a voltage generation circuit that generates first voltage that is linearly changed over time; a voltage square circuit that outputs second voltage that is obtained by squaring the first voltage generated by the voltage generation circuit; a resistance circuit that has a resistance characteristic by which a resistance value is squared-changed over time depending on the second voltage output from the voltage square circuit; and a gain adjustment circuit in which gain is squared-changed over time depending on the resistance value of the resistance circuit. | 10-02-2014 |
20140301158 | DEVICE AND METHOD FOR STABLE LEAST-SQUARES REVERSE TIME MIGRATION - There is a method for generating a final image of a subsurface of the earth. The method includes receiving measured seismic data d of the subsurface; selecting an objective function E that is function of a reflectivity r of the subsurface; and calculating, in a processor, the reflectivity r based on the measured seismic data d, the objective function E, simulated data {tilde over (d)}, a modeling operator M from a reverse time demigration (RTDM) process and an imaging operator M | 10-09-2014 |
20140301159 | METHOD FOR DETERMINING A STATE OF AN ULTRASOUND PROBE - A method for determining whether an ultrasound probe is on a scan state or on a non-scan state includes the following steps. An object is scanned to generate an image by the ultrasound probe, and the image is divided into a strong echo area and a weak echo area. The ultrasound probe is determined to be on the scan state as a signal intensity in the weak echo area of the image is greater than a threshold. Otherwise, the ultrasound probe is determined to be on the non-scan state as the signal intensity in the weak echo area of the image is less than the threshold, and the ultrasound probe enters a freeze mode so as to store a frozen image at a time before entering the freeze mode. | 10-09-2014 |
20140307521 | ULTRASOUND DIAGNOSIS APPARATUS AND POWER SUPPLY - An ultrasound diagnosis apparatus in comprising a transformer, a first power source and a second power source, an ultrasound transducer, a processor, and a driving part. The transformer comprises a primary winding and a secondary winding. The first power source and the second power source are connected to the primary winding. The ultrasound transducer is driven by the voltage induced to the secondary winding, and transmits ultrasound waves to a subject, and receives reflected waves reflected by the subject to output the received signal. The processor implements processing on the received signal to generate ultrasound wave images. The driving part drives to change the voltage among a first level voltage based on the first power source, a second level voltage based on the second power source, and a third level voltage between the first level voltage and the second level voltage. | 10-16-2014 |
20140307522 | IMAGE PROCESSING DEVICE, IMAGE PROCESSING METHOD, AND PROGRAM - The present technique relates to an image processing device, an image processing method, and a program allowing a grasp of an ultrasonic image with an intuitive and simplified manipulation. | 10-16-2014 |
20140347954 | ULTRASOUND IMAGING SYSTEM, AND A PROCESSING DEVICE USED INSIDE SAID ULTRASOUND IMAGING SYSTEM - The ultrasound imaging system comprises an ultrasound probe ( | 11-27-2014 |
20140347955 | TRANSMIT/RECEIVE SYSTEMS FOR IMAGING DEVICES - A transmit circuit outputs test pulses to a probe including a transducer to generate an image of a test object. A composite signal including the test pulses and a reflected signal is output by the transducer. A receive circuit receives the composite signal including the test pulses and the reflected signal and includes a filter circuit that filters the test pulses from the composite signal and passes the reflected signal. An impedance of the filter circuit is equal to substantially zero when the reflected signal is within a predetermined frequency range. A clipper circuit limits a magnitude of an output of the filter circuit. An amplifier amplifies the output of the filter circuit and that outputs an amplified voltage. A processing module generates a signal for displaying the image of the test object based on the amplified voltage. | 11-27-2014 |
20140355374 | PORTABLE ULTRASOUND IMAGING DEVICES - A portal ultrasound imaging apparatus having an adjustable hinge assembly, which includes a key having a narrower end and an end wider in the circumferential direction of the hinge assembly. The key is movable in a slot in an axial direction of the hinge assembly to a locked position, where the side surfaces of the key presses against the walls of the slot to eliminate circumferential gaps between the key and the slot. When at the locked position in the slot, the key can be pushed towards the opposite of the axial direction to an unlocked position where an angular lock of the hinge assembly is released, allowing the hinge assembly to be adjusted to a desired angular coupling. The key can then be pushed in the axial direction back to the locked position in the slot to prevent change in the coupling angle of the hinge assembly. | 12-04-2014 |
20140355375 | GENERALIZED INTERNAL MULTIPLE IMAGING - Various examples are provided for generalized internal multiple imaging (GIMI). In one example, among others, a method includes generating a higher order internal multiple image using a background Green's function and rendering the higher order internal multiple image for presentation. In another example, a system includes a computing device and a generalized internal multiple imaging (GIMI) application executable in the computing device. The GIMI application includes logic that generates a higher order internal multiple image using a background Green's function and logic that renders the higher order internal multiple image for display on a display device. In another example, a non-transitory computer readable medium has a program executable by processing circuitry that generates a higher order internal multiple image using a background Green's function and renders the higher order internal multiple image for display on a display device. | 12-04-2014 |
20140355376 | Display With Backside Ultrasonic Sensor Array - A display device has a visual display capable of providing an image and an ultrasonic sensor array attached to a backside component of the visual display. The ultrasonic sensor array may be an ultrasonic area array sensor. For example, the backside component may be a backlight, an optical waveguide, or a display TFT. | 12-04-2014 |
20140355377 | ULTRASOUND IMAGE ENHANCEMENT AND SUPER-RESOLUTION - Techniques to improve resolution in an ultrasound system are disclosed. An exemplary apparatus is a portable ultrasound probe having transducer elements and supporting electronics within the probe. The beam is shaped to split the resolution to sub-pixel accuracy. Super resolution sample technique based on interpolation can be used to further increase resolution. In one embodiment the ultrasound system supports ½ crystal physical resolution and ¼ crystal digital resolution. | 12-04-2014 |
20140355378 | Ultrasonic Observation Equipment, Ultrasonic Observation System, and Ultrasonic Observation Method - A single-element ultrasonic sensor includes a single transducer element and transmits an ultrasonic wave on the basis of a pulse wave. An ultrasonic array sensor includes a plurality of transducer elements and receives an ultrasonic reflected wave. A pulsar supplies the pulse wave to the single element ultrasonic sensor. A receiver receives electric signals from the transducer elements included in the ultrasonic array sensor. An amplification and conversion unit amplifies the electric signals received from the transducer elements included in the ultrasonic array sensor, converts the electric signals into digital signals, and arranges the digital signals in a serial order so as to generate a serial digital signal. An image generator generates an image on the basis of the serial digital signal. | 12-04-2014 |
20140362658 | DEVICE AND METHOD FOR DEGHOSTING VARIABLE DEPTH STREAMER DATA INCLUDING PARTICLE MOTION DATA - Computing device, computer instructions and method for de-ghosting seismic data related to a subsurface. The method may include receiving input seismic data recorded by seismic receivers that located at different depths (z | 12-11-2014 |
20150009778 | ELECTROMECHANICAL TRANSDUCER - An electromechanical transducer includes a plurality of cells arranged on a substrate, each cell having a first electrode and a second electrode disposed opposite to the first electrode with a gap interposed between them. A plurality of elements, each including at least two cells with their first electrodes or second electrodes electrically connected to each other, are arranged in the transducer. Vibration film structures that includes respective vibration films disposed above the substrate with a gap between them are arranged in the intervals which are devoid of elements separating the plurality of elements. With this structure, the non-uniformity of the radiation impedances of the plurality of elements due to the intervals separating the regions where the elements are respectively arranged can be reduced and hence the influence of the intervals separating the elements on the transmission/reception characteristics can also be reduced. | 01-08-2015 |
20150016215 | IMAGE PROCESSING MODULE, ULTRASOUND IMAGING APPARATUS, IMAGE PROCESSING METHOD, AND CONTROL METHOD OF ULTRASOUND IMAGING APPARATUS - An image processing module includes an input unit, a weight operator, and a synthesizer. The input unit is configured to receive a plurality of input signals of a plurality of channels. The weight operator is configured to calculate at least one weight to be applied to each channel based on at least one converted signal. The at least one converted signal is acquired by converting at least one input signal among the plurality of input signals of each channel, or by converting a synthesized input signal of the plurality of input signals of each channel. The synthesizer is configured to synthesize the plurality of input signals of the plurality of channels using the weight. | 01-15-2015 |
20150023135 | SPLIT ROW-COLUMN ADDRESSING METHOD FOR THREE-DIMENSIONAL ULTRASOUND IMAGING - The invention discloses a split row-column addressing method for three-dimensional ultrasound imaging, and the method comprises: for an N×N planar array, obtain the pulse-echo response distribution from fully connected two-dimensional planar array, parameters thereof comprising beam widths A′ and B′ at −6 dB and −20 dB respectively, average side lobe C′, highest side lobe D′ and main side-lobe energy ratio E′; set counter K=2, split two-dimensional planar array into K regions in channel direction, determine array elements amount and connect array elements in each region; calculate the time delay according to distance between the coordinates of each region and the focus point within a scanning range of the two-dimensional planar array, and analyze the two-dimensional planar array by ultrasonic sound field simulation algorithm according to the time delay of each region. The invention can solve the prior art of low resolution, and the problem that transmitted and received beam cannot be deflected. | 01-22-2015 |
20150023136 | ULTRASOUND IMAGING METHOD AND DEVICE WITH PREDICTION OF ARTEFACTS INDUCED BETWEEN RECONSTRUCTION MODES - The invention relates to an ultrasound imaging method for imaging a part ( | 01-22-2015 |
20150029818 | ULTRASONIC MEASUREMENT APPARATUS, ULTRASONIC HEAD UNIT, ULTRASONIC PROBE, AND ULTRASONIC IMAGING APPARATUS - An ultrasonic measuring apparatus includes an ultrasonic transducer device having a substrate and an ultrasonic transducer element array that has a first channel group and a second channel group that are arranged on the substrate, a first integrated circuit apparatus that is mounted on the substrate, at one edge portion of the ultrasonic transducer element array in a first direction, such that a long-side direction coincides with a second direction that intersects the first direction, and performs at least one of signal transmission to the first channel group and signal reception from the first channel group, and a second integrated circuit apparatus that is mounted on the substrate, at the other edge portion of the ultrasonic transducer element array in the first direction, such that the long-side direction coincides with the second direction, and performs at least one of signal transmission to the second channel group and signal reception from the second channel group. In the ultrasonic transducer element array, the first group of channels and the second group of channels are arranged alternately every channel in the second direction. | 01-29-2015 |
20150029819 | SURFACE AND SUBSURFACE DETECTION SENSOR - A sensor can include a plurality of imaging components configured to perform (1) subsurface imaging by acoustical excitation and optical detection, and (2) interferometric surface topographic measurement. | 01-29-2015 |
20150029820 | Method for Visualizing Multi-Component Seismic Data Including Rotational Data - The present invention provides visualization of a seismic wavefield as measured by various multi-component sensors, including, but not limited to, pressure, 3-component vector spatial pressure gradients, 3-component linear motion, and 3-component rotational motion. The visualization of the present invention employs combinations of dynamic displacement; dynamic rotation; dynamic dilation and compression; and dynamic color and transparency variations to display various measurements of a seismic wavefield. The visualization of the present invention may be applied to various seismic data sets, including, but not limited to, pre-stack data sets; post-migration data volumes; micro-seismic passive or active source monitoring; and vertical seismic profiles. | 01-29-2015 |
20150029821 | ULTRASONIC OBSERVATION APPARATUS, OPERATION METHOD OF THE SAME, AND COMPUTER READABLE RECORDING MEDIUM - An ultrasonic observation apparatus includes: a first conversion unit that converts an ultrasonic signal as a time domain signal reflected from a specimen into a frequency domain signal; a regression analysis unit that calculates a regression expression for the frequency domain signal; an attenuation correction coefficient calculation unit that calculates an attenuation correction coefficient which is obtained by dividing a difference between first-order coefficients in the regression expressions at two points having different reception depths by a difference between the reception depths at the two points; an attenuation correction processing unit that performs attenuation correction processing on the frequency domain signal based on the attenuation correction coefficient; a second conversion unit that converts the frequency domain signal after the attenuation correction processing, into a second time domain signal; and an image data generation unit that generates ultrasonic image data based on the second time domain signal. | 01-29-2015 |
20150036460 | Methods, Systems and Devices for Generating Slowness-Frequency Projection Logs - An example method for displaying sonic logging data associated with a formation surrounding a borehole can include acquiring sonic data at a plurality of depths using an acoustic array located in the borehole and transforming the acquired sonic data from a time-space domain to a frequency-wave number domain at a limited number of discrete frequencies. The method can also include estimating slowness values at the limited number of discrete frequencies from the transformed sonic data, interpolating the estimated slowness values to obtain a projection of one or more slowness-frequency dispersions of the acquired sonic data and displaying the projection of the slowness-frequency dispersions. The projection of the slowness-frequency dispersions can include a plurality of color bands corresponding to each of the limited number of discrete frequencies. | 02-05-2015 |
20150036461 | 3-D HARMONIC-SOURCE REVERSE TIME MIGRATION SYSTEMS AND METHODS FOR SEISMIC DATA ANALYSIS - Computing device and method for processing seismic traces to produce an image of a subsurface area. The method includes receiving a series of seismic traces related to the subsurface area and recorded by one or more seismic receivers, wherein the one or more seismic sources are originally generated by a source; applying a phase encoding function to the series of seismic traces, at least a portion of said seismic traces comprise signals reflected by geological interfaces of the subsurface area; applying a 3 dimensional (3D) harmonic-source reverse time migration of the series of seismic traces encoded with the phase encoding function; computing a forward wavefield by solving a first wave equation; computing a backward wavefield by solving a second wave equation; and cross-correlating the forward wavefield with the backward wavefield to generate an image of the subsurface. | 02-05-2015 |
20150049577 | ULTRASOUND CAPACITIVE T/R SWITCH DEVICE, CIRCUIT - An ultrasound image system has a plurality of channels. At least one of the plurality of channels has a capacitive T/R switch. | 02-19-2015 |
20150049578 | SYSTEMS AND METHODS FOR ULTRASOUND RETROSPECTIVE TRANSMIT FOCUS BEAMFORMING - Systems and methods for ultrasound beamforming are provided. One method includes obtaining ultrasound data using receive line spacing that changes as a function of depth, determining a number of transmit events to combine at each of a plurality of points for use in combining the obtained ultrasound data, and aligning the ultrasound data with time delays computed from a probe geometry used to obtain the ultrasound data. The method also includes combining the aligned ultrasound data to generate an ultrasound image. | 02-19-2015 |
20150049579 | Ultrasound Testing - An apparatus for imaging structural features below the surface of an object, the apparatus comprising: a transmitter unit configured to transmit a sound pulse at the object; a receiver unit configured to receive reflections of sound pulses transmitted by the transmitter unit from the object; a signal processing unit configured to: analyse one or more signals received by the receiver unit from the object; recognise, in the one or more signals, a reflection that was caused by a first structural feature and a reflection that was caused by a second structural feature that is located, in the object, at least partly behind the first structural feature; and associate each recognised reflection with a relative depth in the object at which the reflection occurred; and an image generation unit configured to generate an image that includes a representation of the first and second structural features in dependence on the recognised reflections and their relative depths. | 02-19-2015 |
20150049580 | Imaging Apparatus - An apparatus for imaging structural features below the surface of an object, comprising: an analysis unit configured to gather information about structural features located at different depths below the surface of the object by transmitting one or more sound pulses at the object and detecting reflections of those sound pulses from the object; and an image generation unit configured to generate: a first image in dependence on a first subset of the detected reflections, the first image representing an overview in which one or more of the structural features may be obscured by another of the structural features; and a second image in dependence on a second subset of the detected reflections, the second image representing a slice through the first image whereby the obscured structural features can be uncovered. | 02-19-2015 |
20150049581 | OBJECT INFORMATION ACQUISITION APPARATUS, OBJECT INFORMATION ACQUISITION METHOD AND PROGRAM - An object information acquisition apparatus includes: a plurality of acoustic wave detecting elements configured to detect an photoacoustic wave generated when an object is irradiated with light and output time-series detection signals; a member disposed outside the object; and a signal processing unit configured to acquire optical property information inside the object by performing image reconstruction through iterative reconstruction method in accordance with the time-series detection signals and an operand for which a response of the photoacoustic wave deriving from the member has been considered. | 02-19-2015 |
20150049582 | ULTRASONIC SIGNAL PROCESSING DEVICE AND ULTRASONIC SIGNAL PROCESSING METHOD - An ultrasonic signal processing method includes: measuring a sound velocity in a subject according to transmission/reception data acquired in ultrasonic transmission of M times (M is an integer equal to or greater than 1 and less than N) along different transmission focus lines among ultrasonic transmission of N times (N is an integer equal to or greater than 2) along multiple transmission focus lines in a case where ultrasonic transmission is sequentially performed at least one time on each of multiple transmission focus lines to create an ultrasonic image for one frame. | 02-19-2015 |
20150063057 | ULTRASONIC MEASUREMENT APPARATUS, ULTRASONIC IMAGING APPARATUS, AND ULTRASONIC MEASUREMENT METHOD - An ultrasonic wave of a predetermined wavelength is transmitted toward an object from channels that are constituted by ultrasonic transducer elements, and reception waves of ultrasonic echoes relating to the transmitted ultrasonic wave are acquired from the channels. When information showing a normal mode or a low power consumption mode shows the normal mode, a first number of reception signals are added together with a weight that is computed in advance, and image generation is performed based on the reception signal obtained from the adding, and when the information shows the low power consumption mode, a second number of reception signals that is less than the first number is added together with a weight that depends on each reception signal, and image generation is performed based on the reception signal obtained from the adding. | 03-05-2015 |
20150063058 | ULTRASONIC MEASUREMENT APPARATUS, ULTRASONIC IMAGING APPARATUS, AND ULTRASONIC MEASUREMENT METHOD - Provided are an ultrasonic measurement apparatus, an ultrasonic imaging apparatus and an ultrasonic measurement method that achieve an increase in processing speed together with an increase in resolution and are user friendly. An image is generated by adding together, with a weight having a fixed value, reception signals obtained by ultrasonic echoes being received by an ultrasonic element array, and an area of interest is set within the area in which the generated image is to be displayed. When an area of interest is acquired, the reception signals received by the ultrasonic element array are added together with weights that depend on the reception signals, with respect to data forming the basis of the image to be displayed in the area of interest, and image generation is performed. | 03-05-2015 |
20150063059 | SONAR NAVIGATION SYSTEM AND METHOD - A method for pre-determining an underwater objects GPS position using a rotatable scan sonar unit linked to a boat, magnetic compass and GPS receiver. This system determines the underwater objects GPS position using the objects distance, compass heading and a GPS receiver/sonar on a boat. This system will provide real time longitude and latitude positions of underwater objects seen with sonar at a distance from a boat, and will allow for precise autopilot navigation or fixed position fishing. The system can also be used to correct for GPS errors when using previously stored waypoints positions of an object. The computer determines an objects underwater GPS position using a sonar transducer and mounted on a 360 degree movable mechanism such as a trolling motor unit, or phased array of transducers and a compass to provide heading information and formulates the objects position based on the distance and heading of the object in relation to the boats current GPS position. | 03-05-2015 |
20150063060 | SONAR NAVIGATION SYSTEM AND METHOD - A method for pre-determining an underwater objects GPS position using a rotatable scan sonar unit linked to a boat, magnetic compass and GPS receiver. This system determines the underwater objects GPS position using the objects distance, compass heading and a GPS receiver/sonar on a boat. This system will provide real time longitude and latitude positions of underwater objects seen with sonar at a distance from a boat, and will allow for precise autopilot navigation or fixed position fishing. The system can also be used to correct for GPS errors when using previously stored waypoints positions of an object. The computer determines an objects underwater GPS position using a sonar transducer and mounted on a 360 degree movable mechanism such as a trolling motor unit, or phased array of transducers and a compass to provide heading information and formulates the objects position based on the distance and heading of the object in relation to the boats current GPS position. | 03-05-2015 |
20150071029 | HIGH FREQUENCY PIEZOELECTRIC CRYSTAL COMPOSITES, DEVICES AND METHODS FOR MANUFACTURING THE SAME - The present invention generally relates to high frequency piezoelectric crystal composites, devices, and method for manufacturing the same. In adaptive embodiments an improved imaging device, particularly a medical imaging device or a distance imaging device, for high frequency (>20 MHz) applications involving an imaging transducer assembly is coupled to a signal imagery processor. Additionally, the proposed invention presents a system for photolithography based micro-machined piezoelectric crystal composites and their uses resulting in improved performance parameters. | 03-12-2015 |
20150071030 | ULTRASONIC MEASUREMENT APPARATUS, ULTRASONIC IMAGING APPARATUS, AND ULTRASONIC MEASUREMENT METHOD - An ultrasonic measurement apparatus that is able to prevent a decrease in the effects of adaptive beamforming, in the case where some element cannot correctly receive signals. The ultrasonic measurement apparatus has a reception processing unit that receives, via an ultrasonic element array having a plurality of channels, an ultrasonic echo relating to an ultrasonic wave transmitted toward an object, as a reception signal for each channel, an error detection unit that performs error detection for each channel, a signal processing unit that performs weighted addition of a reception signal for each normal channel other than an error channel for which an error was detected, with a weight that depends on the reception signal for the normal channel, and an image generation unit that generates an image based on a signal obtained from the weighted addition. | 03-12-2015 |
20150078122 | TRACKING TARGETS ON A SONAR IMAGE - Various implementations described herein are directed to a computer-implemented method for tracking one or more targets on a sonar image. The method may include displaying the sonar image on a computer screen, receiving a command to track the one or more targets on the sonar image, storing the locations of the one or more targets relative to a vessel and displaying a symbol around a respective one of the one or more targets. | 03-19-2015 |
20150078123 | SYNTHETIC UNDERWATER VISUALIZATION SYSTEM - A synthetic underwater visualization system (SUVS) comprising a real-time graphics software engine, a sophisticated underwater environmental sensor, a fixed-base database, and a retrieval system designed to accept and assimilate into a common database bathymetric and environmental information acquired from around the world by components of other deployed SUVS sensing systems. SUVS is capable of sensing, modeling, and realistically displaying underwater environments in real-time, and will foster widespread utilization in the areas of homeland security, commercial and recreational maritime navigation, bathymetric data collection, and environmental analysis. The technology will also be readily adaptable and highly desirable in non-marine applications. | 03-19-2015 |
20150078124 | CONSTRUCTION AND APPLICATION OF ANGLE GATHERS FROM THREE-DIMENSIONAL IMAGING OF MULTIPLES WAVEFIELDS - One embodiment relates to a technological process for identifying a potential subsurface structure below a body of water. Three-dimensional seismic sensor data that includes at least two measured components is obtained. Up-going and down-going wavefields comprising multiples wavefields are constructed from the three-dimensional seismic sensor data by applying wavefield separation. The up-going and down-going wavefields are extrapolated to a reflector surface below a water bottom. An imaging condition is applied at the reflector surface to generate images that include information from the multiples wavefields. Angle gathers are constructed, where each angle gather is constructed by gathering the images generated using the multiples wavefields for a range of illumination angles. Other embodiments, aspects and features are also disclosed. | 03-19-2015 |
20150085603 | SYSTEMS AND METHODS FOR DETERMINING THE FAR FIELD SIGNATURE OF A SOURCE IN WIDE AZIMUTH SURVEYS - Systems and methods for determining the far field signature of a source in wide azimuth surveys are disclosed. The method includes determining a position of a first sensor and a source. The first sensor is attached to a first vessel and the source is attached to a second vessel. The method further includes calculating a reflected incidence angle between the first sensor and the source, determining a position for a second sensor based on a direct incidence angle between the second sensor and the source approximating the direct incidence angle. The method also includes determining a far field signature for the source based on the direct incidence angle. | 03-26-2015 |
20150092514 | ULTRASONIC DEVICE, PROBE, ELECTRONIC DEVICE, AND ULTRASONIC IMAGING APPARATUS - An ultrasonic device includes a base in which a base layer of a vibrating film is formed in every opening that is disposed in an array; an interconnect layer, which is a conductor, formed on the base layer; an insulating film that is formed on the interconnect layer, and forms a laminated structure with respect to the base layer; a plurality of piezoelectric elements that are separated from the interconnect layer by the insulating film, the piezoelectric elements each including a first electrode and a second electrode that sandwich a piezoelectric film on the insulating film; and a through conductor that passes through the insulating film, and connects at least one of the first electrode and the second electrode to the conductor constituting the interconnect layer. | 04-02-2015 |
20150092515 | ULTRASOUND IMAGE ENHANCEMENT AND SUPER-RESOLUTION - Techniques to improve resolution in an ultrasound system are disclosed. An exemplary apparatus is a portable ultrasound probe having transducer elements and supporting electronics within the probe. The beam is shaped to split the resolution to sub-pixel accuracy. Super resolution sample technique based on interpolation can be used to further increase resolution. In one embodiment the ultrasound system supports ½ crystal physical resolution and ¼ crystal digital resolution. | 04-02-2015 |
20150103623 | DETECTING STRUCTURAL AND STRATIGRAPHIC INFORMATION FROM SEISMIC DATA - The present invention relates to a method of processing seismic signals comprising: receiving a set of seismic signals, applying a wavelet transformation to the set of signals and generating transformed signals across a plurality of scales. Then for each scale determining coherence information indicative of the transformed signals and generating a comparison matrix comparing the transformed signals, then outputting seismic attribute information based on combined coherence information. | 04-16-2015 |
20150103624 | ELECTROSEISMIC SURVEYING IN EXPLORATION AND PRODUCTION ENVIRONMENTS - Systems, methods, and computer programs for monitoring a drilling operation in a subterranean formation include receiving, from a first sensor array, one or more seismic signals caused, at least in part, by the drilling operation in the subterranean formation; receiving, from the first sensor array, one or more electromagnetic signals generated by an electro seismic or seismoelectric conversion of the one or more seismic signals caused, at least in part, by the drilling operation in the subterranean formation; and determining a property of one or more of the drillstring and the subterranean formation based, at least in part, on the seismic signals and the corresponding electromagnetic signals received from the first sensor array. The first sensor array is arranged to monitor the drilling operation. | 04-16-2015 |
20150109880 | ULTRASONIC TRANSDUCER AND ULTRASONIC DIAGNOSTIC APPARATUS EMPLOYING THE SAME - An ultrasonic transducer includes a substrate; and a plurality of capacitive ultrasonic cells arranged on the substrate in a predetermined direction. Thicknesses of cavities in the plurality of capacitive ultrasonic cells are determined based on locations of the plurality of capacitive ultrasonic cells in the predetermined direction. | 04-23-2015 |
20150109881 | DEMULTIPLE USING UP/DOWN SEPARATION OF TOWED VARIABLE-DEPTH STREAMER DATA - Methods and systems for processing data acquired using a variable-depth streamer, obtain up-going and down-going wavefields at a predetermined datum, and use them to identify multiples included in the up-going wavefield. An image of a geological formation under the seabed is then generated using the data from which the multiples have been removed, and/or the multiples. | 04-23-2015 |
20150117143 | METHOD FOR POST-STACK NOISE MITIGATION - Method for mitigating coherent noise and seismic data using an adaptively varying filter. The strongest and most coherent pattern ( | 04-30-2015 |
20150117144 | Inversion-Based Reflector Dip Estimation - Method for estimating reflector dips in a window of post stack image traces ( | 04-30-2015 |
20150117145 | ULTRASONIC IMAGING APPARATUS AND CONTROL METHOD THEREOF - Disclosed herein is an ultrasonic imaging apparatus including: an ultrasonic probe configured to receive ultrasonic waves reflected from an object, and to convert the ultrasonic waves into electrical signals; a beamformer configured to perform beamforming on the electrical signals to thereby generate resultant signals, and to output the resultant signals; an image restorer configured to estimate a first Point Spread Function (PSF) based on an ultrasound image corresponding to the outputted signals, to determine a situational variable of the ultrasound image using the first PSF, to estimate a second PSF based on the situational variable of the ultrasound image, and to generate a restored image for the ultrasound image using the second PSF; and an image filter configured to filter the restored image based on the situational variable of the ultrasound image, and to output the filtered image. | 04-30-2015 |
20150124558 | ACOUSTIC CAMERA - Apparatus for generating accurate 3-dimensional images of objects immersed in liquids including optically opaque liquids which may also have significant sound attenuation, is described. Sound pulses are caused to impinge on the object, and the time-of-flight of the reflected sound is used to create a 3-dimensional image of the object in almost real-time. The apparatus is capable of creating images of objects immersed in fluids that are optically opaque and have high sound attenuation at resolutions less than about 1 mm. The apparatus may include a piezoelectric transducer for generating the acoustic pulses; a high-density polyethylene compound acoustic lens, a 2-dimensional segmented piezoelectric detecting array positioned behind the lens for receiving acoustic pulses reflected by the object, the electric output of which is directed to digital signal processing electronics for generating the image. | 05-07-2015 |
20150124559 | Seismic Image Dip Decomposition Estimation and Recomposition - Method for optimal stacking of seismic images to remove noise and enhance signals in seismic images ( | 05-07-2015 |
20150131409 | SEISMIC SOURCE CODING, ACTIVATION, AND ACQUISITION - The Monte-Carlo method of generating Popcorn shooting patterns starts with the number and sizes of the guns available and the length in time of the desired Popcorn pattern. The firing times and order of the guns will be randomly perturbed and a large number of Popcorn patterns built. Candidate Popcorn patterns will then be tested against a set of criteria to identify acceptable or the best patterns. These criteria may include limits on maximum peak strength, distinctiveness compared to the other patterns, and the size of the notches and peaks in the spectra. | 05-14-2015 |
20150138915 | DIRECT RESERVOIR SIGNATURE USING THE DRAG WAVE - A monofrequency signal is used to record signature properties of subsurface reservoir formations. While recording conventional Vibroseis data after certain prescribed distances, the monofrequency signal is transmitted to evaluate the presence of reservoir rocks underneath that source location. When a compressional wave travels through a permeable and fluid-saturated reservoir formation, the Drag Wave travels through reservoir fluid interconnections at a slower velocity than the compressional wave in the rock matrix. Due to the Doppler Effect, a unique lower frequency is generated. This lower frequency becomes an indicator of the presence of reservoir formations. Its character depends on the tortuosity of pore interconnections, presence of pore fluids, and permeability. A transfer function is calculated to convert the swept frequency signal used for conventional seismic recording. This converted swept frequency signal is cross-correlated with the normally recorded signal. Only the presence of the reservoir formation is highlighted; non-reservoir formations are not displayed. | 05-21-2015 |
20150290679 | CAPACITANCE TYPE TRANSDUCER, MANUFACTURING METHOD THEREFOR, AND SUBJECT INFORMATION ACQUIRING APPARATUS - A capacitance type transducer includes one or more cells having a structure in which a vibrating film including one electrode of a pair of electrodes formed spaced apart from each other is supported to be capable of vibrating. The cells are disposed on one surface of a substrate. An acoustic matching layer is provided between a water-resistant sheet and the cells. A water-resistant frame is disposed to surround a side surface of the substrate. The sheet is bonded to an end face of the frame to cover an opening of the frame. | 10-15-2015 |
20150293215 | ULTRASOUND IMAGING APPARATUS AND METHOD FOR CONTROLLING THE SAME - An ultrasound imaging apparatus includes an ultrasonic probe configured to transmit an ultrasound to an object, receive an echo signal reflected from the object, and output the echo signal; a quality determiner configured to receive the echo signals and determine quality of voxels of a three-dimensional (3D) volume of the object to be rendered based on observation information of the 3D volume; and a beamformer configured to perform beamforming on the echo signal based on the quality of the voxels to generate an output signal. | 10-15-2015 |
20150293222 | ULTRASOUND APPARATUS AND ULTRASOUND METHOD FOR BEAMFORMING WITH A PLANE WAVE TRANSMISSION - According to an exemplary embodiment, an ultrasound apparatus for beamforming with a plane wave transmission may comprise a transceiver connected to a transducer array having at least one transducer element, and at least one processor. The transceiver transmits at least one substantially planar ultrasonic wave into a target region at one or more angles relative to the transducer array, and receives one or more signals responsive from the transducer array. The at least one processor applies a fast Fourier transform (FFT) to the one or more signals from each of the at least one transducer element and calculates at least one frequency within a frequency region, and applies an inverse FFT to at least one produced frequency data. | 10-15-2015 |
20150293223 | ULTRASONIC PROBE, ULTRASONIC IMAGING APPARATUS, AND METHOD OF CONTROLLING THE ULTRASONIC IMAGING APPARATUS - An ultrasonic probe includes an ultrasonic array including ultrasonic elements configured to receive ultrasonic waves that are generated from target regions according to interference between the ultrasonic waves of different frequencies which are transmitted to same target regions; and a support frame on which the ultrasonic elements are arranged. | 10-15-2015 |
20150331103 | Angle Independent Velocity Spectrum Determination - An ultrasound imaging system ( | 11-19-2015 |
20150340023 | Ultrasound Imaging Probe with Sigma-Delta Beamformer and Apodization Therein - An ultrasound transducer probe ( | 11-26-2015 |
20150346331 | ULTRASONIC DIAGNOSTIC APPARATUS, ULTRASONIC-DIAGNOSITC-APPARATUS MAIN BODY, AND ULTRASONIC PROBE - According to on embodiment, a power supply circuit is provided in a main body and generates operating voltages for various electric circuits in the ultrasonic probe. Signal lines SL | 12-03-2015 |
20150346338 | A METHOD OF CONFIGURING PLANAR TRANSDUCER ARRAYS FOR BROADBAND SIGNAL PROCESSING BY 3D BEAMFORMING AND SIGNAL PROCESSING SYSTEMS USING SAID METHOD, IN PARTICULAR AN ACOUSTIC CAMERA - A method of configuring planar transducer arrays for broadband signal processing by 3D beamforming, wherein a superdirective beamforming technique for low-frequency signal components is combined with a sparse and aperiodic array pattern for high-frequency components in a predetermined frequency range, and wherein the positions of the individual transducers at the aperture of the array and the FIR filter coefficients are further optimized in parallel, by a hybrid iterative process including an analytical calculus for determining the FIR filter coefficients and a stochastic calculus for determining the transducer positions at the aperture of the planar transducer arrays, by minimization of a cost function. | 12-03-2015 |
20150346368 | SEISMIC ACQUISITION USING NARROWBAND SEISMIC SOURCES - There is provided herein a system and method of seismic data collection for land and marine data that utilizes narrowband to monochromatic low-frequency non-impulsive sources designed to optimize the ability of migration/inversion algorithms to image the subsurface of the Earth, in particular, full-waveform inversion. | 12-03-2015 |
20150362589 | ANTI-SCRATCHING PROTECTION FOR ACOUSTIC SENSORS - An acoustic sensing element of an acoustic sensor and/or transducer can be covered with a composite material comprising a cover material and an anti-scratch material. In one aspect, an acoustic impedance of the cover material is lower than an acoustic impedance of the anti-scratch material. During acoustical sensing, the acoustic sensing element transmits an ultrasonic signal through the cover material and the anti-scratch material, which interferes with an object on (or near) the surface of the anti-scratch material. An interference signal that is generated based on an interference of the ultrasonic signal with the object propagates through the anti-scratch material and the cover material and is sensed by the acoustic sensing element. Further, an image of the object is recreated based on an analysis of the interference signal. | 12-17-2015 |
20150362590 | CALCULATING VELOCITY OF MOVING OBJECTS WITH TIME OF FLIGHT OF ULTRASOUND PULSES AND RECTIFYING DETECTING DEPTH WITH REDUCED ULTRASOUND SPEED - During transmission the speed of ultrasound pulses gradually reduces due to their energy loss. So, calculating the detecting depth with fixed transmitting speed may distort two dimensional images due to the reduction of pulse speed. Correcting TOF error will rectify the depth registration and improve the quality of images. | 12-17-2015 |
20150362593 | METHOD AND SYSTEM FOR THE HAND-GUIDED ULTRASOUND CHECK OF A TEST OBJECT - A method for the ultrasound check of a test object involves moving a test probe along a test probe surface and sending ultrasound impulses into the test object by the test probe. Respective echo signals corresponding with the emitted ultrasound impulses are received by the test probe. An image of a predetermined test region of the test object is prepared on the basis of an overlapping and averaging of amplitude values of the received echo signals by a data processing unit. The respective position of the test probe when sending the ultrasound signals and/or when receiving the corresponding echo signals is captured by a capturing unit. The respectively captured positions of the test probe are considered when creating the image of the test region of the test object. | 12-17-2015 |
20150362611 | SEISMIC IMAGING USING HIGHER-ORDER REFLECTIONS - Techniques are disclosed relating to geophysical analysis. In one embodiment, a method includes receiving seismic data for a geophysical formation recorded during a seismic survey using one or more seabed sensors and one or more sources. In this embodiment, the method includes determining a seismic gather for a location in the geophysical formation, modifying the seismic gather by interchanging source-receiver definitions for the seismic gather, and imaging the location using the modified gather. In this embodiment, the imaging uses higher-order reflections recorded in the seismic gather. In some embodiments, the method includes separating up-going and down-going wavefields and separately imaging using the up-going wavefield and the down-going wavefield. | 12-17-2015 |
20150365017 | TRANSDUCER AND MEASUREMENT APPARATUS - A transducer includes an element disposed on a substrate, where the element includes an electrode, and a connection electrode electrically connected to the electrode of the element. A conductive portion disposed on an insulating film of a flexible print circuit board is electrically connected to the connection electrode. Part of the conductive portion is exposed so as to face a surface of the substrate having the element disposed thereon. An insulation layer is disposed on part of the surface of the substrate facing the flexible print circuit board. | 12-17-2015 |
20150369908 | INTEGRATED SONAR DEVICES AND METHODS - The invention generally relates to sonar devices that integrate forward-looking sensors with down-looking echosounders, side scanning sonar, or both. The invention provides a sonar system that includes a forward-looking sonar device that operates in an integrated fashion with one or more other sonar devices so that a boater can have a reliable navigation tool while also using sonar for finding fish and other features on the seafloor. The forward-looking sonar can include a transducer array that takes a three-dimensional acoustic reading of the objects and seafloor ahead. The electronics that process the acoustic data can also process data from down-looking sonar, side-scanning sonar, or both and can integrate the information to present an expansive display in the boat, revealing the contents and the floor of the sea in front of around, and under the boat. | 12-24-2015 |
20150369909 | IMAGE SENSOR FOR LARGE AREA ULTRASOUND MAPPING - An image sensor includes a source configured to output ultrasound, a probe for emitting the ultrasound onto a scan area, the probe being moveable relative to at least two scan locations of the scan area such that the ultrasound will be focused on each of the at least two scan locations as the probe is moved relative to the scan area to provide an array of scanned images, an ultrasonic, two-dimensional array receiver configured to receive ultrasound reflected from each of the at least two scan locations, and a processing unit configured to generate, for a first of the scan locations, a two-dimensional image of the first scan location based on an intensity of the reflected ultrasound from the first scan location, and to generate an aggregate two-dimensional image for the first scan location which integrates plural two-dimensional images generated using reflected ultrasound of the at least two scan locations. | 12-24-2015 |
20150369915 | MULTI-CLIENT ULTRASOUND IMAGING SYSTEM - An ultrasound imaging scanner includes an ultrasound input device ( | 12-24-2015 |
20150369916 | Multi-Faced Ultrasound Transducer Element - An imaging system ( | 12-24-2015 |
20150378041 | SUBTERRANEAN FORMATION IMAGING METHOD AND SYSTEM - A method and a system for obtaining information for imaging a subterranean formation are provided. The method comprises emitting sonic or percussive signals from one or more point source locations in or near the subterranean formation; detecting the signals at one or more receiver locations; and processing the signals to calculate the geometry of the ray paths travelled by the signals in the subterranean formation. The system comprises one or more signal sources for generating sonic or percussive signals; a receiver for receiving the signals; and a processor for processing the signals. | 12-31-2015 |
20160011305 | ANALOG STORE DIGITAL READ ULTRASOUND BEAMFORMING SYSTEM AND METHOD | 01-14-2016 |
20160011498 | ECHOLOCATION DATA GENERATION | 01-14-2016 |
20160016198 | CAPACITIVE MICROMACHINED ULTRASONIC TRANSDUCER WITH MULTIPLE DEFLECTABLE MEMBRANES - A capacitive micromachined ultrasonic transducer (CMUT) having at least two deflectable membranes. The membranes are spaced from each other, and the membranes contribute to and/or are responsive to receive or transmit an ultrasonic signal. Spacing between the at least two deflectable membranes is adjustable through application of a voltage to cause deflection of at least one of the deflectable membranes, to affect the receive/transmit properties of the CMUT. | 01-21-2016 |
20160018519 | HIGH FREQUENCY ACOUSTIC SPECTRUM IMAGING METHOD AND DEVICE - A method and a device for high frequency acoustic spectrum imaging for an object over a field of view. A camera captures an image of the object. A raster with grids is created as an overlay on the captured image. A directional microphone detects high frequency acoustic waves emanating from the object. An acoustic data signal corresponding to the high frequency acoustic waves is generated by a microphone data processing unit. The coordinates of the focal point of the directional microphone on the grid of the raster is recorded and sent as a real-time feedback position signal to a processor for each measurement of the acoustic signal data. The processor plots a visual representation of the acoustic signal data mapping it to the corresponding coordinates on the raster and creates a high frequency acoustic spectrum image for the object by superimposing the raster on the captured image. | 01-21-2016 |
20160018548 | METHODS AND APPARATUS FOR WELLBORE EVALUATION - A wellbore tool string includes a combination of acoustic inspection tool(s) and electro-mechanical inspection tool(s). The tool string is configured to combine acoustic with electro-mechanic wellbore inspection to circumvent limitations that both technologies may be subject to in wellbore environments. Anomalous data from one or more acoustic tools can be correlated with data acquired by an electro-mechanical tool incorporated into the same tool string to determine wellbore conditions that may have adversely affected the operation of the acoustic tool(s). | 01-21-2016 |
20160019881 | BEAMFORMING APPARATUS, BEAMFORMING METHOD, AND ULTRASONIC IMAGING APPARATUS - A beamforming apparatus includes: a signal output unit configured to output signals; a time difference corrector configured to correct a time difference between the signals; and a weight applier configured to apply a weight value to the signals, according to an error between the signals with the corrected time difference and a target delay pattern. | 01-21-2016 |
20160025878 | SEISMIC IMAGING APPARATUS AND METHOD FOR PERFORMING ITERATIVE APPLICATION OF DIRECT WAVEFORM INVERSION - A seismic imaging technology, and more specifically, an imaging technology for modelling a subsurface structure by updating a velocity model of each frequency band in the ascending, descending order or any random order of frequency | 01-28-2016 |
20160032717 | LWD Resistivity Imaging Tool with Adjustable Sensor Pads - A logging while drilling tool for measuring a geological formation surrounding a wellbore includes a tool body having one or more sensor pads. Each sensor pad is coupled to the tool body by an extendable coupling that is operable to adjust the radial position of the sensor pad by extending away from or retracting toward the tool body. One or more sensors are mounted to each sensor pads and the sensors are operable to obtain a measurement a property of the formation. The tool also includes a downhole control unit having a transmitter and receiver. The downhole control unit is operable to receive the measurement and transmit the measurement to a surface controller, wherein the transmitted measurement indicates a measurement resolution. | 02-04-2016 |
20160035963 | PIEZOELECTRIC DEVICE, AND ULTRASONIC DEVICE, AS WELL AS PROBE, AND ELECTRONIC APPARATUS - A piezoelectric device includes a base, a vibration film, and a piezoelectric element. The base of the piezoelectric device has at least one opening. The opening is closed by the vibration film. The piezoelectric element is located on the vibration film. The vibration film includes a first layer that is has lower water permeability than silicon oxide and a second layer that is in close contact with the first layer and that has a larger toughness value than the first layer. | 02-04-2016 |
20160047780 | METHODS OF OPERATING ULTRASONIC TRANSDUCERS, AND ULTRASONIC DEVICES - A method of operating a capacitive ultrasonic transducer may include: applying a first driving signal to a first electrode to generate a transmission pulse voltage during a transmission period; and/or applying a second driving signal to a second electrode to generate a transmission bias voltage during the transmission period and a receiving bias voltage, different from the transmission bias voltage, during a receiving period. A method of operating an ultrasonic transducer, including a pair of electrodes receiving pulse and DC bias voltages, may include: modulating the DC bias voltage into a transmission bias voltage and superposing the transmission bias and pulse voltages so as to apply the superposed voltage to the electrodes in a transmission mode; and/or modulating the DC bias voltage into a receiving bias voltage, different from the transmission bias voltage, and applying the receiving bias voltage to one of the electrodes in a receiving mode. | 02-18-2016 |
20160047927 | DETERMINATION OF AN IMPULSE RESPONSE AT A SUBSURFACE IMAGE LEVEL - Determination of an impulse response at a subsurface image level can include extrapolation of an up-going pressure wavefield to a subsurface image level, extrapolation of a down-going velocity wavefield to the subsurface image level, and determination of the impulse response at the subsurface image level from a hypothetical seismic source by spectral division of the extrapolated up-going pressure wavefield by the extrapolated down-going velocity wavefield. | 02-18-2016 |
20160054435 | METHOD AND APPARATUS OF ADAPTIVE BEAMFORMING - Provided is a method of adaptive beamforming, which includes calculating a correlation matrix, a first weight vector function and a noise level of received channel data, converting the correlation matrix of the channel data into a first base matrix, generating a second base matrix by selecting a base value not smaller than the calculated noise level from base values of the first base matrix, calculating a second weight vector function from the first weight vector function by using the second base matrix, and performing beam focusing by using the second weight vector function. Therefore, an image with high resolution may be obtained just with received beam focusing. | 02-25-2016 |
20160061951 | Sonar Rendering Systems and Associated Methods - Sonar rendering systems and methods are described herein. One example is an apparatus that includes a transducer element, position sensing circuitry, processing circuitry, and a display device. The processing circuitry may be configured to receive raw sonar data and positioning data, convert the raw sonar data into range cell data based at least on amplitudes of the return echoes, make a location-based association between the raw sonar data and the positioning data, plot the range cell data based on respective positions derived from the positioning data and rotate the range cell data based on a direction of movement of the watercraft to generate adjusted range cell data. The processing circuitry may be further configured to convert the adjusted range cell data into sonar image data, and cause the display device to render the sonar image data with a presentation of a geographic map. | 03-03-2016 |
20160061976 | Generating Subterranean Imaging Data Based on Vertical Seismic Profile Data - Example computer-implemented method, computer-readable media, and computer system are described for generating subterranean imaging data based on vertical seismic profile (VSP) data. In some aspects, VSP data of a subterranean region can be received. Four angle attributes for each image point can be computed based on the received VSP data. Five-dimensional (5D) angle-domain common-image gathers (ADCIG) can be generated according to a ray-equation method based on the four angle attributes. | 03-03-2016 |
20160076933 | RECEPTION AND TRANSMISSION CIRCUIT FOR A CAPACITIVE MICROMACHINED ULTRASONIC TRANSDUCER - Described herein is a transceiver circuit for a capacitive micromachined ultrasonic transducer (CMUT), provided with: a transmitter stage, which generates excitation pulses for a first node of the CMUT transducer during a transmitting phase, a second node of the CMUT transducer being coupled to a biasing voltage; a receiver stage that is selectively coupled to the first node during a receiving phase and has an amplification stage; a switching stage that couples the receiver stage to the first node during the receiving phase and decouples the receiver stage from the first node during the transmitting phase. The amplification stage is provided with a charge amplifier that has an input terminal and is biased as a function of a biasing voltage; and the switching stage is coupled to the same biasing voltage thereby minimizing an injection of charge into the input terminal upon switching from the transmitting phase to the receiving phase. | 03-17-2016 |
20160077231 | DEVICE AND METHOD FOR DEBLENDING SIMULTANEOUS SHOOTING DATA USING ANNIHILATION FILTER - A device, medium and method for deblending seismic data associated with a subsurface of the earth. The method includes receiving an input dataset generated by first and second sources S | 03-17-2016 |
20160084948 | SYSTEMS, METHODS AND COMPUTER PROGRAM PRODUCTS FOR DOPPLER SPATIAL COHERENCE IMAGING - Methods, systems and computer program products for imaging fluid in a sample include acquiring a plurality of echo signals for a region of interest in the sample from a plurality of ultrasound transducer elements in an ultrasound transducer array; applying a stationary echo cancellation to the plurality of echo signals to reduce or remove echo signals that are associated with stationary and/or slower moving features to provide a corresponding plurality of filtered signals; extracting coherence information from the plurality of filtered signals; and imaging the region of interest in response to the coherence information from the plurality of filtered signals. | 03-24-2016 |
20160084979 | Distributed Seismic Source Array - A multitude of seismic sources are formed into a linear array which can be permanently cemented within a wellbore. The seismic sources can be orbital vibrators that are electrically connected and protected from the cementing by use of pieces of drill pipe and tubing that are interconnected and provide a container for electrical connection of the seismic sources and provide surface access through a surface vault. | 03-24-2016 |
20160091605 | Superresolution Imaging Of Scatterers In Pulse-Echo Imaging With Symmetric Stabilized Pulses - Systems and methods of pulse-echo imaging using stabilized symmetric pulses are described. The systems and methods are based on the development of a class of symmetric, i.e., two sided, functions that can be designed and utilized as stabilized pulses. Stabilized pulses are pulses having stable inverse filters, and have previously only been established for asymmetric functions. The systems and methods described herein can be used for super-resolution pulse-echo imaging, for example super-resolution ultrasound imaging. | 03-31-2016 |
20160097838 | PORTABLE SOUND SOURCE SEARCHING SENSOR AND METHOD OF MANUFACTURING THE SAME - A portable sound source searching sensor comprising: a front body ( | 04-07-2016 |
20160097845 | ULTRASOUND SCANNING METHOD AND SYSTEM - An ultrasound scanning method includes the steps of emitting N sets of ultrasound signals onto a target from N different angles and receiving the N sets of ultrasound signals reflected and/or scattered by the target; converting the N sets of ultrasound signals into N ultrasound input images; performing a binarization algorithm for the N ultrasound input images to obtain N binarized images; performing a comparison process on the N binarized images to determine whether a noise exists in at least one of the N binarized images; when the noise exists in an i-th binarized image of the N binarized images, removing the noise from an i-th ultrasound input image corresponding to the i-th binarized image; and compounding the N ultrasound input images into an ultrasound output image. | 04-07-2016 |
20160120503 | ULTRASOUND SIGNAL PROCESSING DEVICE AND ULTRASOUND DIAGNOSTIC DEVICE - Ultrasound signal processing device including: transmitter causing transmission array composed of all or some transducer elements of ultrasound probe to transmit ultrasound; reception aperture setter designating reception array having center position corresponding to center position of transmission array; transmission time calculator calculating, for each of measurement points arranged within area of reach of ultrasound, transmission time from transmission of ultrasound until arrival of ultrasound at measurement point; reception time calculator calculating reception time from reflection of ultrasound at measurement point until arrival of ultrasound at reception transducer element; delay amount calculator calculating total propagation time being sum of transmission time and reception time, and calculating delay amount for reception transducer element based on total propagation time; delay processor specifying reception signal value corresponding to delay amount, from reception signal sequence corresponding to reception transducer element; and adder generating acoustic line signal for measurement point based on specified reception signal value. | 05-05-2016 |
20160124088 | ULTRASONIC MEASUREMENT APPARATUS, ULTRASONIC DIAGNOSTIC APPARATUS, AND ULTRASONIC MEASUREMENT METHOD - An ultrasonic measurement apparatus includes a transmission processing unit that performs processing for transmitting an ultrasonic wave at a given transmission angle, a reception processing unit that performs reception processing of an ultrasonic echo with respect to the transmitted ultrasonic wave in first to Nth (N is an integer equal to or greater than 2) ultrasonic transducers; and a processing unit that performs processing with respect to first to Nth reception signals corresponding to the first to Nth ultrasonic transducers. The processing unit performs first phasing processing when a signal processing target point exists in a plane wave propagation region, and performs second phasing processing when the signal processing target point exists in a spherical wave propagation region, as phasing processing with respect to each of the reception signals of the first to Nth reception signals. | 05-05-2016 |
20160131748 | SYSTEMS FOR ULTRASOUND BEAM FORMING DATA CONTROL - Disclosed are systems and methods which efficiently control storage of and/or access to data which includes repetitive data or data which is used by different modes, processes, etcetera. Embodiments provide control for storage of and/or access to large amounts of data used in ultrasound system beam forming for image generation using a hierarchy of sequencers for controlling storage of and/or access to data. A frame sequencer may provide control at a frame level while an address sequencer is implemented to provide control at a data access level. | 05-12-2016 |
20160131749 | ULTRASONIC DIAGNOSTIC APPARATUS AND METHOD OF CONTROLLING THE SAME - Provided are an ultrasonic diagnostic apparatus that is capable of generating an image caused by fundamental components of ultrasonic echo signals and synthesizing the generated image with an image caused by harmonic components so that an image having both advantages of the images can be generated, and a method of controlling the ultrasonic diagnostic apparatus. The ultrasonic diagnostic apparatus includes: a transmission beam generating unit that generates a plurality of sets of transmission beams by setting transmission beams which are transmitted in different transmission scan line positions and in which the sum of waveforms is 0, to one set; a reception beam generating unit that generates reception beams with respect to at least one reception scan line in consideration of transmission delay of the transmission beams in each of the transmission scan lines; a signal processing unit that extracts fundamental components and harmonic components from the reception beams, respectively; a synthesization unit that generates synthesized signals by synthesizing the fundamental components and the harmonic components according to a set synthesization ratio; and a display unit that displays a synthesized image including the synthesized signals. | 05-12-2016 |
20160131781 | CREATING A HIGH RESOLUTION VELOCITY MODEL USING SEISMIC TOMOGRAPHY AND IMPEDANCE INVERSION - A method is described for of creating a high-resolution velocity model of a geological medium that includes generating a long-wavelength anisotropic velocity model using tomographic inversion of seismic data gathers and combining the long-wavelength velocity model with an attenuation model. The method further includes performing prestack depth migration on the seismic data gathers using the long-wavelength velocity and attenuation model to produce seismic image gathers, applying a dip-consistent filter to the seismic image gathers, and transforming the filtered seismic image gathers to the time domain. The method further includes generating a full-band impedance model by performing impedance inversion of the time-domain filtered seismic image gathers using the long-wavelength velocity and attenuation model. The full-band impedance or velocity model is calibrated in the frequency domain in a manner independent of the spatial coordinates. The full-band impedance or velocity model is used for detecting fluid pressure anomalies in the geological medium. | 05-12-2016 |
20160169839 | Ultrasonic Rag Layer Detection System And Method For Its Use | 06-16-2016 |
20160170012 | SONAR SYSTEM WITH CURVED ANTENNA OR ANTENNA CONFIGURED TO TRANSMIT THE SAME TRANSMISSION PATTERN AS THE CURVED ANTENNA | 06-16-2016 |
20160170022 | Event Triggering Using Sonar Data | 06-16-2016 |
20160170059 | VISCO-ACOUSTIC REVERSE-TIME MIGRATION USING PSEUDO-ANALYTICAL METHOD | 06-16-2016 |
20160170063 | MULTI-BEAM PHASED ARRAY ACOUSTIC TRANSDUCER OPERATION FOR DOWNHOLE APPLICATIONS | 06-16-2016 |
20160177710 | Systems and Methods for Evaluating Gas-Contaminated Cement | 06-23-2016 |
20160178738 | ULTRASONIC DIAGNOSTIC DEVICE AND ULTRASONIC IMAGE GENERATION METHOD | 06-23-2016 |
20160187481 | OPTO-ACOUSTIC IMAGING SYSTEM WITH DETECTION OF RELATIVE ORIENTATION OF LIGHT SOURCE AND ACOUSTIC RECEIVER USING ACOUSTIC WAVES - In an embodiment, a system and method are provided for determining position and orientation of an optical delivery unit relative to an acoustic receiving unit, in the field of opto-acoustic imaging, wherein the optical delivery unit comprises a first fiducial marker site configured to emit acoustic responses and a second fiducial marker site configured to emit acoustic responses. A plurality of acoustic signals from a volume of a subject are sampled and recorded, each of the plurality of acoustic signals being collected at a different data collection position relative to a coordinate reference frame. The system is configured to identify in each of the plurality of acoustic signals a response of a first fiducial marker and a response of a second fiducial marker. Each identified response indicates a separation between a fiducial marker site and a data collection position of an acoustic signal. The system determines the position and orientation of the optical delivery unit in the coordinate reference frame by using the identified responses of the first fiducial marker and the identified responses of the second fiducial marker. | 06-30-2016 |
20160192905 | PIEZOELECTRIC CRYSTAL ELEMENTS OF SHEAR MODE | 07-07-2016 |
20160252616 | LASER SYNTHETIC APERTURE SONAR FOR BURIED OBJECT DETECTION | 09-01-2016 |
20160377717 | SYSTEMS AND METHODS FOR ADAPTIVE SAMPLING OF DOPPLER SPECTRUM - An ultrasound imaging system is provided. The ultrasound imaging system includes an ultrasound transducer configured to acquire ultrasound imaging information including an ultrasound data sample. The ultrasound imaging system includes a processing circuit configured to receive the ultrasound imaging information and applying a combining function to the ultrasound imaging information based on a characteristic of the ultrasound imaging information, in order to combine the ultrasound imaging information into at least one spectral Doppler line. The combining function improves an image quality of an image displayed based on the at least one spectral Doppler line. | 12-29-2016 |
20190149110 | AMPLIFIER WITH BUILT IN TIME GAIN COMPENSATION FOR ULTRASOUND APPLICATIONS | 05-16-2019 |