Patent application number | Description | Published |
20080210165 | CLUSTER TYPE SEMICONDUCTOR PROCESSING APPARATUS - A cluster type semiconductor processing apparatus includes a wafer handling chamber having a polygonal base including multiple sides for wafer processing chambers and two adjacent sides for wafer loading/unloading chambers as viewed in a direction of an axis of the wafer handling chamber. An angle A between two adjacent sides of the multiple sides for wafer processing chambers is greater than an angle B which is calculated by dividing 360° by the number of the total sides consisting of the multiple sides for wafer processing chambers and the two adjacent sides for wafer loading/unloading chambers. | 09-04-2008 |
20090055013 | METHOD FOR CONTROLLING SEMICONDUCTOR-PROCESSING APPARATUS - A method controls an apparatus such as a semiconductor-processing apparatus including a controller and at least one device controlled by the controller, wherein the controller is provided with an interface for communicating with the device, and the interface has an internal clock for measuring time intervals for the communication. The method includes: replacing a system clock of the controller's operating system, which is used for transmitting instructions to the interface, with the internal clock of the interface; transmitting instructions to the interface from the controller using the time intervals measured by the internal clock substituting the system clock; and transmitting the instructions to the device from the interface using the time intervals measured by the internal clock in the interface, thereby controlling the device. | 02-26-2009 |
20090059307 | METHOD OF EMBEDDING A PLURALITY OF DIFFERENT TWO-DIMENSIONAL CODES IN AN IMAGE - The purpose of the present invention is to prevent a two-dimensional code to be additionally embedded from corrupting a two-dimensional code which has been embedded when a document in which the two-dimensional code has been embedded is copied or when a document in which the two-dimensional code has been embedded is overlaid on form data in which the two-dimensional code has been embedded. In the present invention, when it is detected that a second two-dimensional code is embedded in an input image, the input image is printed without overlay of a first two-dimensional code thereon. Furthermore, when form data for overlaying is stored, when it is detected that a third two-dimensional code is embedded in the form data or when it is detected that a second two-dimensional code is embedded in an input image, the input image is output without overlay of a first two-dimensional code thereon. | 03-05-2009 |
20090061074 | TECHNOLOGY OF DETECTING ABNORMAL OPERATION OF PLASMA PROCESS - A method of detecting abnormal operation of a plasma process, includes: (i) detecting a potential Vpp1 between an upper electrode and a lower electrode disposed parallel to each other in a reaction camber at a time T | 03-05-2009 |
20090093906 | POSITION SENSOR SYSTEM FOR SUBSTRATE TRANSFER ROBOT - A substrate processing apparatus comprises a substrate handling chamber, a pair of position sensors, and a substrate transfer robot. Each of the sensors comprises an emitter configured to emit a beam of light, and a receiver configured to receive the light beam. The substrate transfer robot comprises an end effector and a robot actuator. The end effector is configured to hold a substrate such that the substrate has a same expected position with respect to the end effector every time the substrate is held. The robot actuator is configured to move the end effector within the handling chamber to transfer substrates among a plurality of substrate stations. An edge of a substrate held in the expected position by the end effector can partially block a light beam of one of the position sensors, while another end of the end effector partially blocks a light beam of the other position sensor. | 04-09-2009 |
20090177078 | MAGNETIC RESONANCE IMAGING APPARATUS AND METHOD - In the continuous moving table imaging, high-speed imaging such as the echo planar method is implemented without deteriorating image quality, realizing a high-speed table movement, namely, high-speed imaging. | 07-09-2009 |
20090252580 | WAFER PROCESSING APPARATUS WITH WAFER ALIGNMENT DEVICE - A semiconductor-processing apparatus includes: a wafer handling chamber; a wafer processing chamber; a wafer handling device; a first photosensor disposed in the wafer handling chamber in front of the wafer processing chamber at a position where the wafer partially blocks light received by the first photosensor at a ready-to-load position and substantially entirely blocks light received by the first photosensor when the wafer moves from the ready-to-load position toward the wafer processing chamber in the x-axis direction; and a second photosensor disposed in the wafer handling chamber in front of the wafer processing chamber at a position where the wafer does not block light received by the second photosensor at the ready-to-load position and partially blocks light received by the second photosensor when the wafer moves from the ready-to-load position toward the wafer processing chamber in the x-axis direction. | 10-08-2009 |
20100039110 | MAGNETIC RESONANCE IMAGING APPARATUS AND MAGNETIC RESONANCE IMAGING METHOD - An MRI apparatus capable of performing a high-speed operation for removing aliasing from the data measured by non-Cartesian imaging in a real space with a small amount of operation is provided. Non-Cartesian data sampling is performed by thinning the number of data by using multiple receiver coils having different sensitivity distribution from each other. Image reconstruction means creates orthogonal data by gridding non-orthogonal data obtained by each receiver coil on a grid having an equal spatial resolution to and a narrower field of view than a target image, subjects it to Fourier transform and creates the first image data containing aliasing components. The second image data is created by using the first image data created for each receiver coil and a sensitivity distribution of each receiver coil. | 02-18-2010 |
20100087729 | MAGNETIC RESONANCE IMAGING APPARATUS AND MAGNETIC RESONANCE IMAGING METHOD - When multiple types of imaging are performed while moving a table on which a subject to be examined is placed, an imaging efficiency is improved and a high-quality image is obtained within a short time. Therefore, within a predetermined time interval such as an identical period of a periodic living body motion, a predetermined number of echo signals from each of the multiple types of imaging sequences are acquired and the table on which the subject to be examined is placed is moved. Along with the movement of the table, data items within the same range in the Ky-direction as to each of the imaging sequences are acquired, the moving speed of the table is controlled in such a manner that the acquired data items become continuous in the x-direction, and images are reconstructed based on the data items obtained respectively from the imaging sequences. | 04-08-2010 |
20100141253 | MAGNETIC RESONANCE IMAGING APPARATUS - An MRI apparatus includes an imaging means being provided with a means for generating magnetic fields respectively of a static magnetic field, a gradient magnetic field, and an RF magnetic field, and a means for receiving an echo signal generated from a subject, the imaging means being for measuring echo data associated with at least one measurement trajectory in k-space, while varying angles with respect to a coordinate axis in the k-space of the measurement trajectory, so as to collect at least one measured data for each of the angles; and an image reconstruction means for rearranging the measured data in the k-space and reconstructing an image; wherein, the image reconstruction means calculates a phase for correction based on standard data selected from the measured data for each of the angles, prior to rearranging the measured data in the k-space, and performs a phase correction as to the measured data, by using the phase for correction being calculated. With the procedure above, it is possible to reduce an artifact caused by the nonlinearity of the gradient magnetic field and/or inhomogeneities of the magnetic field, without extending the imaging time. | 06-10-2010 |
20100164495 | MAGNETIC RESONANCE IMAGING APPARATUS AND METHOD FOR CORRECTING ERROR DUE TO GRADIENT MAGNETIC FIELD - In a non-cartesian sampling method, in order to reduce an artifact on an image caused by an error of a gradient magnetic field, data for correcting the error caused by the gradient magnetic field are obtained when data used for image reconstruction are obtained, and the data used for the image reconstruction are corrected by using the obtained data for the correction. In order to obtain the data for correcting the error, a block having plural parallel echo signals is measured. | 07-01-2010 |
20100260403 | MAGNETIC RESONANCE IMAGING APPARATUS AND MAGNETIC RESONANCE IMAGING METHOD - An image in which an area of interest on an image is optimally susceptibility-emphasized is obtained in susceptibility-emphasized imaging. A measuring order of plural echo signals is controlled in accordance with the size of a desired area of interest of an examinee. Preferably, a target frequency in a K space is determined in accordance with the size of the area of interest, and the measuring order of plural echo signals is controlled so that an echo signal corresponding to the target frequency is measured at a target echo signal or in the neighborhood of the target echo time. | 10-14-2010 |
20100277172 | MAGNETIC RESONANCE IMAGING APPARATUS AND SUSCEPTIBILITY-EMPHASIZED IMAGING METHOD - When performing susceptibility-emphasized imaging using the echo planar method in an MRI apparatus, it is possible to obtain a susceptibility-emphasized image having a preferable signal-to-noise ratio. | 11-04-2010 |
20100296717 | MAGNETIC RESONANCE IMAGING APPARATUS AND MULTI-CONTRAST ACQUIRING METHOD - The contrast of an image captured by imaging using a multi-echo sequence by radial sampling is improved. | 11-25-2010 |
20110089948 | MAGNETIC RESONANCE IMAGING APPARATUS - An MRI apparatus includes an imaging means being provided with a means for generating magnetic fields respectively of a static magnetic field, a gradient magnetic field, and an RF magnetic field, and a means for receiving an echo signal generated from a subject, the imaging means being for measuring echo data associated with at least one measurement trajectory in k-space, while varying angles with respect to a coordinate axis in the k-space of the measurement trajectory, so as to collect at least one measured data for each of the angles; and an image reconstruction means for rearranging the measured data in the k-space and reconstructing an image; wherein, the image reconstruction means calculates a phase for correction based on standard data selected from the measured data for each of the angles, prior to rearranging the measured data in the k-space, and performs a phase correction as to the measured data, by using the phase for correction being calculated. With the procedure above, it is possible to reduce an artifact caused by the nonlinearity of the gradient magnetic field and/or inhomogeneities of the magnetic field, without extending the imaging time. | 04-21-2011 |
20110157635 | PRINTING SYSTEM, PRINTING APPARATUS, PRINTING METHOD, AND PROGRAM FOR IMPLEMENTING THE PRINTING SYSTEM AND THE PRINTING METHOD - A printing apparatus includes a generation unit configured to generate first print data and second print data based on input print data, a printing unit configured to generate first image data by executing image processing on the first print data generated by the generation unit and to print the generated first image data on a sheet, a transmission unit configured to transmit the second print data generated by the generation unit to another printing apparatus connected to the printing apparatus, and a conveyance unit configured, in order to print the second print data transmitted by the transmission unit, to convey the sheet having the first image data printed thereon by the printing unit to the another printing apparatus. | 06-30-2011 |
20110200243 | MAGNETIC RESONANCE IMAGING APPARATUS AND METHOD - Disclosed is a magnetic resonance imaging apparatus comprising static magnetic field generation means, gradient magnetic field generation means, high-frequency magnetic field generation means, reception means, signal processing means, and control means which controls the gradient magnetic field generation means, the high-frequency magnetic field generation means, the reception means, and the signal processing means, wherein said apparatus comprises: approximation means that approximates the output error of the gradient magnetic field using a combination of multiple parameter values with respect to each direction of the gradient magnetic field; evaluation means that evaluates the combinations of multiple parameter values based on the image quality of a magnetic resonance image that is reconstructed while taking into account the output error of the gradient magnetic field that has been approximated by the approximation means; and determination means that, based on the result of the evaluation by the evaluation means, determines a desired combination among the combinations of multiple parameter values. | 08-18-2011 |
20110245655 | MAGNETIC RESONANCE IMAGING APPARATUS AND PULSE SEQUENCE ADJUSTING METHOD - When executing an imaging pulse sequence using a high frequency magnetic field pulse with a partial waveform of a predetermined waveform, an application start time of a slice gradient magnetic field applied simultaneously with the high frequency magnetic field pulse is corrected. Specifically, a magnetic resonance signal for correcting the imaging pulse sequence is acquired by executing a prescan sequence using a high frequency magnetic field pulse with a predetermined waveform, an application start time of a slice selection gradient magnetic field in the imaging pulse sequence is corrected using the magnetic resonance signal for correction, and the imaging pulse sequence is executed by applying the slice selection gradient magnetic field with the corrected application start time. | 10-06-2011 |
20110249881 | MAGNETIC RESONANCE IMAGING APPARATUS AND METHOD OF COMPENSATION FOR READOUT GRADIENT MAGNETIC FIELD ERROR - In nonlinear measurement in which a dephasing readout gradient magnetic field is not used, a positional shift of the k space data, which is caused by a difference between a readout gradient magnetic field actually applied and the calculated value, and a deterioration in the image quality resulting therefrom are reduced. In order to do so, in the invention, when executing an imaging pulse sequence including a nonlinear measurement which does not use a dephasing gradient magnetic field, a prescan sequence is executed and a correction value for correcting the shift of the readout gradient magnetic field from the set value is calculated from the data acquired in the prescan. When gridding the data acquired in the imaging pulse sequence, a parameter value of the gridding is corrected using the correction value to perform the gridding. | 10-13-2011 |
20120112745 | MAGNETIC RESONANCE IMAGING APPARATUS AND MAGNETIC RESONANCE IMAGING METHOD - In a non-Cartesian sampling method, a trajectory along which a measurement space is sampled is optimized. That is, data placed on one spiral trajectory heading outward from the center of the measurement space is sampled from a plurality of echo signals. The sampling is performed such that the data is placed continuously, without overlapping, in order from the center to the outside. Alternatively, the data may be overlapped and a mismatch between echo signals may be corrected using the data of the overlapped portion. | 05-10-2012 |
20120113478 | METHOD OF EMBEDDING A PLURALITY OF DIFFERENT TWO-DIMENSIONAL CODES IN AN IMAGE - The purpose of the present invention is to prevent a two-dimensional code to be additionally embedded from corrupting a two-dimensional code which has been embedded when a document in which the two-dimensional code has been embedded is copied or when a document in which the two-dimensional code has been embedded is overlaid on form data in which the two-dimensional code has been embedded. In the present invention, when it is detected that a second two-dimensional code is embedded in an input image, the input image is printed without overlay of a first two-dimensional code thereon. Furthermore, when form data for overlaying is stored, when it is detected that a third two-dimensional code is embedded in the form data or when it is detected that a second two-dimensional code is embedded in an input image, the input image is output without overlay of a first two-dimensional code thereon. | 05-10-2012 |
20120141007 | MAGNETIC RESONANCE IMAGING APPARATUS AND SYNCHRONOUS MEASUREMENT METHOD - An image with a desired contrast is obtained while suppressing body motion artifacts caused by both random motion and periodic motion of an object. In order to do so, an imaging sequence using a non-Cartesian sampling method is executed so as to synchronize with a biological signal only at the start time and a repetition time (TR), which is an execution interval between shots within the imaging sequence, is maintained. In addition, a time difference between a delay time and a start time of each shot is calculated, and a shot with a predetermined time difference or more is executed again after the TR time. | 06-07-2012 |
20120226137 | MAGNETIC RESONANCE IMAGING APPARATUS AND SAR ESTIMATION METHOD - In order to further improve the accuracy of SAR estimation by accurately estimating, for each object, the energy of RF pulses absorbed into a part of an object, for example, a head, on the basis of measurement performed before main imaging, a nuclear magnetic resonance imaging apparatus estimates a head SAR by calculating a signal S | 09-06-2012 |
20120300260 | PRINTING APPARATUS WITH SEMICONDUCTOR NONVOLATILE STORAGE DEVICE, AND CONTROL METHOD THEREFOR - A printing apparatus that is capable of preventing a reduction of read rate and recovering a read error. A control unit manages controls of the entire apparatus. A storage unit is provided with a semiconductor nonvolatile storage device that is controlled by the control unit to store data and a storage control unit with a function that executes a refreshment operation for the semiconductor nonvolatile storage device at the time of reading the data. The control unit suppresses the refreshment operation when detecting an execution of a processing operation that requires a high processing speed, and permits the refreshment operation after the end the processing operation that requires the high processing speed. | 11-29-2012 |
20130170727 | MAGNETIC RESONANCE IMAGING APPARATUS AND MAGNETIC RESONANCE IMAGING METHOD - In multi-slice imaging of a magnetic resonance imaging apparatus based on a non-Cartesian sampling method in which an overlap portion is generated in k space, stable body movement correction is realized at high speed. In order to do so, the rotation and translation of an object is detected for each specific region (in the case of a hybrid radial method, each blade) using a most characteristic slice in the imaging region, and the detected body movement is used for body movement correction of the specific region in all slices. The slice used for correction may be determined using a mathematical analysis result, such as correlation. In addition, data collection and correction processing may be performed in parallel. | 07-04-2013 |
20130207653 | MAGNETIC RESONANACE IMAGING APPARATUS AND METHOD FOR MEASURING IRRADIATION MAGNETIC FIELD - There is provided an MRI apparatus capable of measuring the B1 distribution of an RF transmission coil in a short time with high accuracy. In order to realize this, imaging means of the MRI apparatus includes a B1 distribution measurement sequence that includes an application of a pre-pulse by RF radiation means and a plurality of signal acquisition sequences with different elapsed time (TI) from the pre-pulse. The signal acquisition sequence uses a pulse having a small flip angle as an RF pulse and is executed before the longitudinal relaxation after the pre-pulse ends. Calculation means calculates the B1 distribution of the RF radiation means using image data with different TI acquired in the respective signal acquisition sequences. | 08-15-2013 |
20130207654 | MAGNETIC RESONANCE IMAGING APPARATUS, METHOD FOR CORRECTING MEASUREMENT-SPACE COORDINATES, AND IMAGE RECONSTRUCTION METHOD - In order to approximate the gradient magnetic field pulse waveform shape with high accuracy and improve the image quality at the time of imaging cross-section change or oblique imaging, an MRI apparatus of the present invention divides the waveform shape of the gradient magnetic field pulse into a plurality of sections, defines an approximation function for each section, and corrects the k-space coordinates at which the echo signal is arranged using the parameter of the approximation function. In addition, an optimal parameter of the approximation function of the waveform shape of the gradient magnetic field pulse is searched for using the measured signal. | 08-15-2013 |
20130278972 | METHOD OF EMBEDDING A PLURALITY OF DIFFERENT TWO-DIMENSIONAL CODES IN AN IMAGE - The purpose of the present invention is to prevent a two-dimensional code to be additionally embedded from corrupting a two-dimensional code which has been embedded when a document in which the two-dimensional code has been embedded is copied or when a document in which the two-dimensional code has been embedded is overlaid on form data in which the two-dimensional code has been embedded. In the present invention, when it is detected that a second two-dimensional code is embedded in an input image, the input image is printed without overlay of a first two-dimensional code thereon. Furthermore, when form data for overlaying is stored, when it is detected that a third two-dimensional code is embedded in the form data or when it is detected that a second two-dimensional code is embedded in an input image, the input image is output without overlay of a first two-dimensional code thereon. | 10-24-2013 |
20140055137 | MAGNETIC RESONANCE IMAGING APPARATUS AND ECHO SIGNAL MEASUREMENT METHOD - In order to improve contrast in non-orthogonal measurement without sacrificing speed, in imaging which combines a fast imaging sequence for acquiring a plurality of echo signals in one shot with non-orthogonal system measurement, the shape of a blade in which an echo train of each shot is arranged is a fan shape having the radius and the arc of a circle centered on the origin of a k space. At this time, echo signal arrangement is controlled such that an echo signal for desired TE of each fan-shaped blade is arranged in a low spatial frequency region of the k space. | 02-27-2014 |
20140120475 | ELECTRON BEAM EXPOSURE METHOD - An electron beam exposure method includes the steps of: preparing an exposure mask having a plurality of opening patterns formed by dividing a drawing object pattern into exposable regions; and drawing the drawing object pattern by performing exposure with an electron beam passing through the opening patterns of the exposure mask. Each end portion serving as a joint in each opening pattern of the exposure mask is provided with a joining portion tapered in a width of the opening pattern. The exposure is performed in such a way that portions drawn through adjacent joining portions overlap each other. | 05-01-2014 |
20140125333 | MAGNETIC RESONANCE IMAGING APPARATUS AND GRADIENT MAGNETIC FIELD WAVERFORM ESTIMATION METHOD - In order to obtain a highly reliable image with no image distortion or no artifacts, such as ghosting, by compensating for the distortion of an output gradient magnetic field waveform caused by various factors with high accuracy, an input gradient magnetic field waveform and an output gradient magnetic field waveform corresponding to the input gradient magnetic field waveform are calculated, a response function that is a sum of response functions of a plurality of elements affecting the output gradient magnetic field waveform is calculated using the input gradient magnetic field waveform and the output gradient magnetic field waveform, an output gradient magnetic field waveform is calculated from an input gradient magnetic field waveform of a gradient magnetic field pulse set in the imaging sequence using the response function, and various kinds of correction are performed using the calculated value of the calculated output gradient magnetic field waveform. | 05-08-2014 |
20140167752 | MAGNETIC RESONANCE IMAGING APPARATUS AND CORRECTION VALUE CALCULATION METHOD - In order to obtain a high-quality image even in multi-slice imaging in a UTE sequence that uses a half RF pulse, a refocusing pulse of the slice gradient magnetic field is adjusted and applied so that the excitation profiles of positive polarity data and negative polarity data have phase distributions that are 180 [deg] inverted with respect to each other in side lobe portions. In addition, the irradiation frequency of the half RF pulse is adjusted so as to eliminate a position shift between the intensity distributions of the positive polarity data and the negative polarity data. | 06-19-2014 |
20140197835 | MAGNETIC RESONANCE IMAGING APPARATUS AND MAGNETIC RESONANCE IMAGING METHOD - In the non-Cartesian measurement, image quality is improved while the advantages of non-Cartesian measurement are maintained. To realize the aforementioned, in the non-Cartesian measurement, artifacts caused by non-uniform data density in k-space are reduced. Therefore, each unit k-space is imaged by an inverse Fourier transform, the field of view of the image is enlarged in a direction in which data density is to be increased, and the image after the enlargement of the field of view is Fourier transformed and gridded as unit k-space that has a small k-space pitch in the direction in which the field of view has been enlarged and has an increased amount of data. This processing is repeated for all blades. | 07-17-2014 |
20140253121 | MAGNETIC RESONANCE IMAGING APPARATUS AND IRRADIATION MAGNETIC FIELD DISTRIBUTION MEASUREMENT METHOD - To obtain the irradiation magnetic field distribution of each channel of a multichannel transmission RF coil at high speed, for multiple channels which are all or some of the channels of the transmission coil, an image is acquired by irradiation with one channel or a combination of two or more channels, an irradiation magnetic field distribution upon irradiation with all of the multiple channels is acquired, and the irradiation magnetic field distribution of each channel is calculated using the acquired irradiation magnetic field distribution of all of the multiple channels and the phase difference calculated from the image of each channel and the image of all of the multiple channels. | 09-11-2014 |
20140361771 | MAGNETIC RESONANCE IMAGING APPARATUS AND RECONSTRUCTED IMAGE ACQUISITION METHOD - In order to improve contrast and image quality in non-orthogonal measurement without sacrificing speed, in imaging which combines a fast imaging sequence for acquiring a plurality of echo signals in one shot with non-orthogonal system measurement, the shape of a blade in which an echo train of each shot is arranged includes a fan-shaped region having the radius and the arc of a circle centered on the origin of the k space, and a region overlapping an adjacent blade. During measurement, control is performed such that an echo signal for desired TE of each blade is arranged in a low spatial frequency region of a k space, and during image reconstruction, body motion between the blades is corrected using data of the overlapping regions. | 12-11-2014 |