14th week of 2019 patent applcation highlights part 29 |
Patent application number | Title | Published |
20190101631 | Methods and Apparatus for Gigahertz Time-of-Flight Imaging - A time-of-flight imaging system may output light with a modulation frequency in the gigahertz band, to illuminate a range target. This high-frequency illumination may enable extremely precise—e.g., micron-scale—depth measurements. The system may modulate reflected light from the range target, to create a beat tone that has a frequency in the hertz band. In some cases, the modulated light in the gigahertz band is created by a first modulator and the beat tone in the hertz band is created by a second modulator. In some cases, the modulated light in the gigahertz band is created by an upshift cascade of modulators and the beat tone in the hertz band is created by a downshift cascade of modulators. A photodetector may measure the low-frequency beat tone. From this beat tone, phase of the signal and depth of the range target may be extracted. | 2019-04-04 |
20190101632 | LOCATION ESTIMATION METHOD AND APPARATUS USING ACCESS POINT IN WIRELESS COMMUNICATION SYSTEM - An operating method for a location estimation apparatus communicating with an access point (AP) in a wireless communication system according to an embodiment of the present invention comprises the steps of: receiving, from a second AP, a first received signal strength indicator (RSSI) signal having been measured at a first AP, and generating a first RSSI vector corresponding to the first RSSI signal; calculating a path loss exponent, using the distance between the first AP and the second AP and the first RSSI vector, and generating a second RSSI vector of each of multiple sub-areas divided from an entire area, using the path loss exponent; and generating a radio map of the entire area, using the first RSSI vector and the second RSSI vector. | 2019-04-04 |
20190101633 | METHODS AND APPARATUS FOR NARROWBAND RANGING SYSTEMS USING COARSE AND FINE DELAY ESTIMATION - An example apparatus includes a transducer to receive a reference signal and a reflected signal, the reflected signal being the reference signal after being reflected of a target; a filter to generate a band-pass reference signal and a band-pass reflected signal by filtering (A) reference signal samples associated with the reference signal and (B) reflected signal samples associated with the reflected signal; a correlator to generate a first correlation by correlating the reference signal samples with the reflected signal samples and a second correlation by correlating the band-pass reference signal with the band-pass reflected signal; and a delay estimator to determine a distance to the target based on the first correlation (coarse delay) and the second correlation (fine delay) and output a signal including the distance to the target. | 2019-04-04 |
20190101634 | SYSTEM AND METHOD FOR CONTROLLING OPERATION OF A VEHICLE USING A MILLIMETER-WAVE RADAR SENSOR - An embodiment system may include a first millimeter-wave radar sensor coupled to a driver-side door of a vehicle, and a second millimeter-wave radar sensor coupled to a side-view mirror of the vehicle adjacent to the driver-side door. The first millimeter-wave radar sensor may be configured to produce a first set of radar data indicative of a presence of an object within a first field of view, and the second millimeter-wave radar sensor may be configured to produce a second set of radar data indicative of a presence of the object within a second field of view. The system may further include a processing circuit coupled to the first millimeter-wave radar sensor and the second millimeter-wave radar sensor, and a controller coupled to the processing circuit, the controller being configured to control an operation of the vehicle based on a control signal provided to the controller by the processing circuit. | 2019-04-04 |
20190101635 | RADAR DEVICE - Transmission antennas ( | 2019-04-04 |
20190101636 | Dual-Sided Radar Systems and Methods of Formation Thereof - A radar system includes a substrate that includes a first surface and a second surface. The first surface is opposite the second surface. The radar system further includes transmitter front-end circuitry attached to the substrate and configured to transmit a transmitted radio frequency (RF) signal in a first direction away from the first surface and in a second direction away from the second surface. The radar system also includes a first receive antenna and a second receive antenna. The first receive antenna is disposed at the first surface and is configured to receive a first reflected RF signal propagating in the second direction and generated by the transmitted RF signal. The second receive antenna is disposed at the second surface and is configured to receive a second reflect RF signal propagating in the first direction and generated by the transmitted RF signal. | 2019-04-04 |
20190101637 | WIRELESS COMMUNICATION APPARATUS AND WIRELESS COMMUNICATION METHOD - To provide a technique to simplify a configuration of a wireless communication apparatus that determines a position of a communication terminal. The wireless communication apparatus includes a wireless communication unit and a controller. The wireless communication unit is mounted on a vehicle. The controller switches, in stages, a strength level of a sending signal transferred by the wireless communication unit by radio. In addition to this, the controller determines, based on the strength level and the presence or absence of an answering signal transferred from a communication terminal that has received the sending signal to the wireless communication unit by radio, the position of the communication terminal. | 2019-04-04 |
20190101638 | Dual Purpose Millimeter Wave Frequency Band Transmitter - Systems, apparatuses, and methods for implementing a dual-purpose millimeter-wave frequency band transmitter are disclosed. A system includes a dual-purpose transmitter sending a video stream over a wireless link to a receiver. In some embodiments, the video stream is generated as part of an augmented reality (AR) or virtual reality (VR) application. The transmitter operates in a first mode to scan and map an environment of the transmitter and receiver. The transmitter generates radio frequency (RF) signals in a first frequency range while operating in the first mode. Additionally, the transmitter operates in a second mode to send video data to the receiver, and the transmitter generates RF signals in the first frequency range while operating in the second mode. | 2019-04-04 |
20190101639 | SPACEBORNE SYNTHETIC APERTURE RADAR SYSTEM AND METHOD - The present invention relates to an advanced spaceborne Synthetic Aperture Radar (SAR) system and method that can provide high resolution measurements of the Earth or planetary surface, overcoming limitations in conventional SAR systems, and reduce development costs. The present invention utilizes advanced and innovative techniques, such as software defined waveforms, digital beamforming (DBF) and reconfigurable hardware, to provide radar capabilities not possible with conventional radar instruments, while reducing the radar development cost. The SAR system architecture employs a modular, low power, lightweight design approach to meet stringent spaceborne radar instrument requirements. Thus, the present invention can enable feasible Earth and planetary missions that address a vast number survey goals, including the measurement of ecosystem structure and extent, surface and sub-surface topography, subsurface stratigraphy, soil freeze-thaw, ice sheet composition and extent, glacier depth, and surface water, among many others. | 2019-04-04 |
20190101640 | Systems for Synthetic Aperture Radar Transmit and Receive Antennas - Synthetic aperture radar transmit and receive antenna systems and methods of transmitting and receiving radar signals are disclosed. In one embodiment, a transmit and receive antenna system includes a transmit antenna array configured to transmit a plurality of radio frequency transmit signals, the transmit antenna array including a plurality of patch antenna elements mounted to a printed circuit board, each patch antenna element belonging to a subarray, and one or more power amplifiers, each power amplifier feeding a subarray of the patch antenna elements, and a reflectarray receive antenna configured to receive radio frequency signals including a plurality of reflectarray antenna elements mounted to a printed circuit board, at least one antenna feed configured to receive radio frequency signals reflected from the plurality of reflectarray antenna elements, and at least one low noise amplifier electrically connected to the at least one antenna feed. | 2019-04-04 |
20190101641 | WORK TOOL COLLISION AVOIDANCE SYSTEM FOR UNDERGROUND OBJECTS - An electronic controller comprises a memory including computer executable instructions for detecting an underground object, and a processor coupled to the memory and configured to execute the computer executable instructions, the computer executable instructions when executed by the process cause the processor to: sense a signal indicating the presence of an underground object, and send a control signal to a machine control system or a work tool control system to alter the movement of the machine or the work tool. | 2019-04-04 |
20190101642 | ADAPTIVE MITIGATION OF ULTRASONIC EMISSION IN VEHICULAR OBJECT DETECTION SYSTEMS - Remote object detection in an automotive vehicle includes an ultrasonic sensor for emitting ultrasonic bursts from an ultrasonic transducer at a standard rate. At least one object is tracked which reflects the ultrasonic bursts to the sensor. The transducer is adaptively set to emit ultrasonic bursts at a reduced rate which is less than the standard rate based on a result of the object tracking. In one embodiment, the ultrasonic bursts are set at the reduced rate when the tracked object is maintaining a stable relative position. The stable relative position may be comprised of the tracked object having a relative velocity less than a threshold. In another embodiment, extrinsic ultrasonic bursts originating from the tracked object and subsequent echoes between the automotive vehicle and the tracked object can be used by the vehicle to monitor the tracked object while emission of bursts from the vehicle are switched off. | 2019-04-04 |
20190101643 | DEVICE AND METHOD FOR DETECTING MAIN ACOUSTIC INDEXES OF MULTI-BEAM SONAR - A device and a method for detecting main acoustic indexes of multi-beam sonar pertaining to the field of hydrographic surveying and charting technology. The device includes a rotating device and a lifting gear installed in an anechoic tank. The bottom of the rotating device is equipped with a multi-beam sonar that has its rotating plane perpendicular to the direction of track line and transmits signals along the horizontal direction. A standard hydrophone is equipped at the bottom of the lifting gear, and is connected with a signal collector. The device utilizes the standard hydrophone to receive the pulse signals transmitted by the multi-beam sonar and employs the multi-beam sonar to receive the standard sound source signals, designs the detection process for data collection for analysis and research, thereby achieving the detection of the frequency, source level and beam angle of multi-beam sonar. | 2019-04-04 |
20190101644 | MULTIFUNCTION VEHICLE DETECTION SYSTEM - A detection system for a vehicle in an environment includes a lens within an aperture. A line camera is configured to receive light passing through the lens from the environment to generate image data. A LiDAR system is configured to transmit light through the lens to the environment and receive light passing through the lens from the environment to generate range data. | 2019-04-04 |
20190101645 | DETECTION SYSTEM WITH REFLECTION MEMBER AND OFFSET DETECTION ARRAY - A detection system for a vehicle in an environment has a reflective member positioned along an x-y plane for rotation around a rotational axis orthogonal to the x-y plane. The reflective member has a plurality of reflective sides, each of the reflective sides sloping towards the rotational axis at a slope angle different than the slope angle of at least one of the others of the reflective sides. At least one detector is positioned offset from the rotational axis and the x-y plane, an active side of the plurality of reflective sides positioned to provide a field of view between the detector and the environment. An actuator is configured to rotate the reflective member around the rotational axis to change the active reflective side to a different one of the plurality of reflective sides. | 2019-04-04 |
20190101646 | OPTICAL SENSOR AND ABNORMALITY DETECTION METHOD FOR OPTICAL SENSOR - An optical sensor and an abnormality detection method therefor are provided. The optical sensor includes a light source device that generates light to be irradiated to an object; a light receiving part that receives a reflected light from the object; a branch part that fuses a first optical fiber optically coupled to the light source device and a second optical fiber optically coupled to the light receiving part to join with one end of a third optical fiber facing the object; and a processing part that determines whether junction abnormality occurs at a junction between the third optical fiber and the branch part based on whether an increment in a received light amount detected by the light receiving part with respect to a reference detection amount which is detected in a state of no reflection from the other end of the third optical fiber is within a predetermined range. | 2019-04-04 |
20190101647 | Integrated Optical Transmitter and Receiver - Technology for light detection and ranging (LIDAR) sensor can include an optical signal source, an optical modulation array and optical detector on the same integrated circuit (IC) chip, multi-chip module (MCM) or similar solid-state package. | 2019-04-04 |
20190101648 | DISTANCE DETECTION SENSOR AND OPERATING METHOD THEREOF - A distance detection sensor includes a current-to-voltage converter configured to convert a current corresponding to a detection signal reflected from a target to a voltage, an amplifier configured to amplify the converted voltage, a comparator configured to compare an output value of the amplifier with a reference value to generate a receive pulse, a reference value selector configured to select any one of a plurality of reference values as the reference value, and a time-to-digital converter configured to calculate time-of-light (TOF) time in response to the receive pulse output from the comparator. The reference value selector continuously changes different reference values respectively corresponding continuous receive pulses. | 2019-04-04 |
20190101649 | SYSTEMS, DEVICES, AND METHODS FOR AUTONOMOUS VEHICLE LOCALIZATION - Disclosed are systems, methods, and computer-readable storage media to control a vehicle. In one aspect, a method includes capturing point-cloud data representative of a surrounding of an autonomous vehicle with one or more LIDAR sensors, identifying a point in the point cloud data as a non-matching point in response to the point having no corresponding point in a map used to determine a position of the autonomous vehicle, determining whether the non-matching point is to he used in a determination of an overlap score based on one or more comparisons of the point cloud data and the map, determining the overlap score in response to the determining whether the non-matching point is to be used in the determination of the overlap score, determining a position of the autonomous vehicle based on the overlap score and the map, and controlling the autonomous vehicle based on the position. | 2019-04-04 |
20190101650 | METHOD AND SYSTEM FOR TRACKING, PROCESSING, AND INTEGRATING AIRPORT GROUND VEHICLE POSITION DATA INTO THE AUTOMATIC DEPENDENT SURVEILLANCE-BROADCAST (ADS-B) NETWORK INFRASTRUCTURE - A method and system for tracking the real-time positions of airport ground vehicles, and integrating the positional data into the Automatic Dependent Surveillance-Broadcast (ADS-B) network infrastructure. The system may include one or more ground receiver stations that receives positional telemetry data from one or more airport ground vehicles, and transmits the ground vehicle positional data to a centralized ground base station. A computer system connected to the ground base aggregates the ground vehicle telemetry data from one or more ground vehicles, converts the aggregate telemetry data into an ADS-B compatible data protocol, and integrates that data into the ADS-B network infrastructure for dissemination and reporting across the ADS-B network. The method enables the use of and dissemination of ADS-B information for ground vehicles without the need for ADS-B transponders on each ground vehicle. | 2019-04-04 |
20190101651 | OPTIMIZED GLOBAL POSITIONING SYSTEM CORRECTION MESSAGE FOR INTEROPERABLE TRAIN CONTROL MESSAGING TRANSPORT - A method for a precision navigation system (PNS), the PNS, and a back office (BO) server for optimizing an error correction message for interoperable train control messaging transport (ITCM) are provided. The method includes simultaneously receiving (i) a first message containing error correction data from a reference station, and (ii) a second message containing satellite identification information from a rover; determining satellites that are common to the error correction data and the satellite identification information; normalizing the data based on the determined satellites; generating an optimized error correction message based on the normalized data of the determined satellites; and transmitting the standardized error correction message to the rover. | 2019-04-04 |
20190101652 | Determination of Integrity of Incoming Satellite Signals of Satellite Navigation System - A system and method for testing the integrity of signals incoming to a satellite navigation system. The method is implemented with an array of antenna elements, and a receiver connected to each antenna element. The receivers simultaneously and continuously make measurements on all tracked signals. Each receiver measures the carrier phase of an incoming signal. Based on the carrier phase differences between antenna elements and the distance between them, the azimuth and elevation of the signal source can be calculated. This measured angle of arrival can then be compared to an expected angle of arrival to determine if the signal source is legitimate. The system and method can be also applied to determining the angle of arrival of sources of interference, and to mitigating the effects of both illegimate and interfering signals. | 2019-04-04 |
20190101653 | GLOBAL NAVIGATION SATELLITE SYSTEM, NAVIGATION TERMINAL, NAVIGATION METHOD AND PROGRAM - In a satellite navigation system a navigation terminal continuously receives navigation signals from navigation satellites and continuously implements navigation calculations, thereby obtaining navigation calculation results, and executes in parallel: using clock offset values determined through the navigation calculations, calculates, in real time, changes in difference between time differences with regard to difference between time differences, which are differences between a clock offset value and a standard deviation value, which is the value of the standard deviation of fluctuation amounts of the clock offset values; determines, in real time, two navigation precision indices of the calculated navigation calculation results on the basis of each change in the calculated difference between time differences and standard deviation value; associates, in real time, the determined two navigation precision indices with the calculated navigation calculation results; and outputs, in real time, the navigation calculation results associated with the at least two navigation precision indices. | 2019-04-04 |
20190101654 | ADAPTIVE LOW POWER MODE FOR GNSS RECEIVER - GNSS receiver duty cycling is based on context awareness. Context awareness can be received signal quality, targeted navigation performance, and external information extracted from other sensors or being received from other sources such as cellular system, Wi-Fi, camera, LiDAR, and Bluetooth Low Energy (BLE). | 2019-04-04 |
20190101655 | SYSTEMS AND METHODS FOR POSITRON EMISSION TOMOGRAPHY IMAGE RECONSTRUCTION - The disclosure relates to PET imaging systems and methods. The systems may execute the methods to obtain an anatomical image of a subject acquired when the subject remains in a breath-hold status; obtain PET data of the subject, the PET data corresponding to a respiration signal with a plurality of respiratory phases of the subject, the respiratory phases including a first respiratory phase and a second respiratory phase; gate the PET data; reconstruct a plurality of gated PET images, the plurality of gated PET images including a first gated PET image corresponding to the first respiratory phase and a second gated PET image corresponding to the second respiratory phase; determine a first motion vector field between the first gated PET image and the second gated PET image; determine a second motion vector field between the anatomical image and the second gated PET image; and reconstruct an attenuation corrected PET image. | 2019-04-04 |
20190101656 | Radiometric Measuring Device and Radiometric Measurement System - A radiometric measuring device for measuring a property of a substance, wherein the substance is contained in a hollow body, the radiometric measuring device includes: a bundle of a plurality of scintillator fibers, wherein the bundle is embodied for a longitudinally extending arrangement of the scintillator fibers along the hollow body, a plurality of optoelectronic sensors, wherein the optoelectronic sensors are optically coupled to associated scintillator fibers of the bundle and embodied to convert a light pulse produced by the optically coupled scintillator fiber into an associated electrical sensor signal, and an evaluation unit. The evaluation unit is electrically coupled to the optoelectronic sensors and embodied to sum the sensor signals or signals obtained therefrom by further processing to form a summed signal and embodied to determine the property on the basis of the summed signal. | 2019-04-04 |
20190101657 | SYSTEMS AND METHODS FOR IMPROVED COLLIMATION SENSITIVITY - A detector assembly is provided that includes a semiconductor detector, a pinhole collimator, and a processing unit. The semiconductor detector has a first surface and a second surface opposed to each other. The first surface includes pixelated anodes. The pinhole collimator includes an array of pinhole openings corresponding to the pixelated anodes. Each pinhole opening corresponds to a corresponding group of pixelated anodes. The processing unit is operably coupled to the semiconductor detector and configured to identify detected events from the pixelated anodes. The processing unit is configured to generate a trigger signal responsive to a given detected event in a given pixelated anode, provide the trigger signal to a readout, and, using the readout, read and sum signals arriving from the given pixelated anode and anodes surrounding the given pixelated anode. | 2019-04-04 |
20190101658 | LONG DISTANCE SIMULATED RADIATION DETECTOR - A system, method, and apparatus for simulating the detection of radiation comprise at least one simulated radioactive source, a simulated radiation detector, and an emulating module configured to simulate a detection level for the at least one simulated radioactive source according to a radiation level associated with the simulated radioactive source, wherein the simulated detection level is provided on the simulated radiation detector. | 2019-04-04 |
20190101659 | A METHOD OF REDATUMING GEOPHYSICAL DATA - A method of redatuming geophysical data, wherein there is provided multi-component geophysical data, and the method includes obtaining at least one focussing function and/or at least one Green's function from the multi-component geophysical data. | 2019-04-04 |
20190101660 | TIME-REVERSED NONLINEAR ACOUSTICS FOR DOWNHOLE PRESSURE MEASUREMENTS - Apparatus ( | 2019-04-04 |
20190101661 | COMPRESSIVE SENSING MARINE STREAMER SYSTEM - Embodiments included herein are directed towards a marine seismic streamer. The seismic streamer may include an outer skin formed in a longitudinally extending tubular shape, an inner surface of the outer skin defining an internal volume containing a gel substance. The seismic streamer may also include a plurality of micro-electro-mechanical (“MEMS”) sensors and a plurality of hydrophones associated with the outer skin, wherein the plurality of MEMS sensors are spaced non-uniformly in the seismic streamer along an axial direction of the streamer, such that not more than 100 MEMS sensors are located in the seismic streamer over a continuous 100 meter axial length of seismic streamer. The seismic streamer may further include an electronics system extending axially through an inside portion of the outer skin and a strength member core extending axially through an inside portion of the outer skin. | 2019-04-04 |
20190101662 | COMPRESSIVE SENSING MARINE STREAMER SYSTEM - Embodiments included herein are directed towards a marine seismic streamer. The seismic streamer may include an outer skin formed in a longitudinally extending tubular shape, an inner surface of the outer skin defining an internal volume containing a gel substance. The seismic streamer may also include a plurality of micro-electro-mechanical (“MEMS”) sensors and a plurality of hydrophones associated with the outer skin, wherein the plurality of MEMS sensors are spaced non-uniformly in the seismic streamer along an axial direction of the streamer, such that not more than 100 MEMS sensors are located in the seismic streamer over a continuous 100 meter axial length of seismic streamer. The seismic streamer may further include an electronics system extending axially through an inside portion of the outer skin and a strength member core extending axially through an inside portion of the outer skin. | 2019-04-04 |
20190101663 | Acoustic Imaging For Wellbore Investigation - An acoustic imaging tool, logging system and method are disclosed for producing high-resolution three-dimensional images. The imaging tool may include three separate arrangements of acoustic transducers: a circumferential set for wall inspection, internal transducers for fluid characterization within a chamber open to wellbore fluid, and forward-looking transducers located at the bottom end of the tool. Forward-looking transducers emit ultrasonic waves and receive reflections back when solid features are located under the tool. In some embodiments, Doppler effect calculations may be performed to produce forward-looking acoustic images. In other embodiments, an ambient acoustic energy illuminates the wellbore, and an acoustic lens set focuses reflected ultrasonic waves onto an acoustic imaging array of an ultrasonic camera. | 2019-04-04 |
20190101664 | MAGNETIC INDUCTION BASED LOCALIZATION FOR WIRELESS SENSOR NETWORKS IN UNDERGROUND OIL RESERVOIRS - Example computer-implemented methods, computer-readable media, and computer systems are described for accurate localization of wireless sensor devices in underground oil reservoirs. In some aspects, every sensor measures respective received magnetic field strengths (RMFSs) on a plurality of respective magnetic induction (MI) links and transmits the measured respective RMFSs to at least one anchor devices. A set of distances is determined from the measured respective RMFSs. The set of distances is processed through an ordered sequence of algorithms, namely weighted maximum likelihood estimation (WMLE), semi-definite programming (SDP) relaxation, alternating direction augmented Lagrangian method (ADM), and conjugate gradient algorithm (CGA), to generate accurate localization of the wireless sensor devices in underground oil reservoirs. | 2019-04-04 |
20190101665 | Wettability of Formations with Heavy Oil - A measurement device makes measurements on a region of investigation in which a native fluid or complex fluid (e.g., emulsified fluid) has been replaced by a fluid of different viscosity. Various methods such as core flooding, pressure cycling, centrifuging, or imbibition may be used to replace the native fluid. The replacement fluid may include alkanes, alkenes, or some combination of those, and is preferably non-polar. The replacement fluid may mix with the native fluid within the pores to produce a mixture having a different viscosity than the native fluid. Measurements can be made on a sample in a lab or on an isolated region of a subsurface formation. Standard measurement techniques such as the Amott-Harvey technique or the United States Bureau of Mines technique may be used. Alternatively, NMR measurements may be performed. A parameter such as wettability and relaxivity is estimated using data obtained by the measurement device. | 2019-04-04 |
20190101666 | Methods and Means for Fracture Mapping in a Well Bore - A borehole fracture evaluation tool for imaging radiation emitted by radioactive materials injected into the formation during hydraulic fracturing operations, the tool including at least one collimated imaging detector used to record x-ray backscatter images; sonde-dependent electronics; and a plurality of tool logic electronics and power supply units. A method for fracture evaluation imaging, the method including at least injecting radioactive tracer materials into the formation fractures; controlling the imaging direction of an imaging array detector; imaging the fracture structures; creating a composite image of the fractures versus the formation; and determining the size and position of the fractures. | 2019-04-04 |
20190101667 | PHOTOELECTRIC SENSOR - The photoelectric sensor includes a light projecting part emitting light, a light receiving part receiving light, a housing housing the light projecting part and the light receiving part, a setting part receiving an input operation from outside to set a threshold value, and an adjustment part receiving an input operation from outside to finely adjust the set threshold value. The housing includes a front surface having a light projecting/receiving surface allowing light from the light projecting part and light to the light receiving part to pass, a rear surface located on a side opposite to the front surface, a top surface adjacent to the front surface and extending in a direction orthogonal to the front surface and the rear surface, and an inclined surface inclined with respect to and connecting the top surface and the rear surface. The adjustment part is provided on the inclined surface. | 2019-04-04 |
20190101668 | METHOD FOR OPERATING LIGHT CURTAIN ARRANGEMENT AND LIGHT CURTAIN ARRANGEMENT - A method for operating a light curtain arrangement for monitoring a safety area is provided. The light curtain arrangement includes a plurality of first light emitter elements placed at an emitter side of the safety area, and a plurality of second light receiver elements placed at a receiver side of the safety area. The method includes the steps of: assigning a plurality of dedicated light emitter elements to a respective one light receiver element, wherein the assigned light emitter elements form an array; and activating the dedicated light emitter elements of a respective array to contemporaneously emit light, and at the same time, receiving the emitted light from the activated light emitter elements by the respective light receiver element. | 2019-04-04 |
20190101669 | NOVEL ANTI-MICROBIAL BANDAGE CONTACT LENS WITH OCULAR DRUG DELIVERY - The technology relates to a prophylactic bandage contact lens that prevents microbial infections in an eye as well as treats infection by dispensing antimicrobial medication at controlled rates. In one embodiment, the invention provides a bandage with nanostructures, and provides a continuous treatment over 10 days and shields the eye from the environment, significantly diminishing the risk of infection while allowing damaged tissues to heal. | 2019-04-04 |
20190101670 | ANTIREFLECTION FILM AND METHOD FOR PREPARING SAME - The present invention relates to an antireflection film being capable of realizing high scratch resistance and antifouling property while simultaneously having low reflectivity and high light transmittance, and further being capable of enhancing screen sharpness of a display device, and a method for preparing the antireflection film. | 2019-04-04 |
20190101671 | OPTICAL BEAM STEERING DEVICES HAVING POLYGONAL REFLECTORS THEREIN - An optical beam steering device includes an at least partially optically transparent container having a polygonal reflector therein that is at least partially surrounded within the container by an optically transparent liquid. The polygonal reflector may be configured to have a center of mass, which is equivalent to its geometric center. In addition, the polygonal reflector may be configured so that a difference between an effective density of the polygonal reflector and a density of the optically transparent liquid is preferably less than about 2.1 grams per cubic centimeter. More preferably, the polygonal reflector and the optically transparent liquid may be collectively configured to be neutrally buoyant relative to each other within the container. | 2019-04-04 |
20190101672 | OPTICAL FILTER AND APPARATUS USING OPTICAL FILTER - The object of the present invention is to provide an optical filter which has not only a high visible light transmittance, but also high light cut characteristics in the near-infrared wavelength region, and which is excellent in heat resistance. The optical filter of the present invention comprises a base material comprising a compound (S) having an absorption maximum in the region of 600 to 1150 nm and an antioxidant (P) having at least one phosphorus atom in a molecule, and a dielectric multilayer film formed on at least one surface of the base material. | 2019-04-04 |
20190101673 | COLOR FILM SUBSTRATE, DISPLAY PANEL AND METHOD FOR DETECTING A DISPLAY PANEL - The present disclosure relates to a color film substrate, a display panel and a method for detecting a display panel. The CF substrate includes a display region and a peripheral region corresponding to a dummy pixel region around the display region. A black matrix of the color filter substrate includes a light transmitting section in a portion of the peripheral region corresponding to a dummy pixel unit. The light transmitting section includes a first set of light transmitting sections and a second set of light transmitting sections. Each of the first and second set of light transmitting sections is respectively in a portion that extends along a first side and a second side which is opposite to the first side of the display region and corresponds to the dummy pixel unit. | 2019-04-04 |
20190101674 | INFRARED-ABSORBING MATERIAL, LIQUID DISPERSION OF INFRARED-ABSORBING MATERIAL, OBJECT INCLUDING DISPERSED INFRARED-ABSORBING MATERIAL, TRANSPARENT BASE LAMINATED WITH OBJECT INCLUDING DISPERSED INFRARED-ABSORBING MATERIAL, AND INFRARED-ABSORBING TRANSPARENT BASE - An infrared-absorbing material is provided, the infrared-absorbing material including
| 2019-04-04 |
20190101675 | FILTER - A method of forming a conformable filter for a vehicle window, comprising the steps of: —selecting at least a first wavelength corresponding to a predetermined laser threat; —providing a conformable photosensitive film and exposing said film to radiation from a focused laser source of said first wavelength to create a first filter region therein configured to substantially block incident radiation thereon substantially only of said first wavelength; —determining if an essential lighting source outside or inside the vehicle includes said first wavelength and, if so, —selecting a bandwidth corresponding to a first predetermined wavelength band including said first wavelength and exposing said polymeric film to radiation from one or more further laser sources of respective different wavelengths within said first predetermined wavelength band to create a notch filter region therein, including said first filter region, said notch filter region being configured to substantially block incident radiation thereon at wavelengths within said first predetermined wavelength band whilst substantially allowing visible wavelengths outside of said first predetermined wavelength band to be transmitted therethrough, and wherein said bandwidth is selected to optimise visibility through said filter of said essential lighting source. | 2019-04-04 |
20190101676 | COLORING COMPOSITION, LIGHT ABSORPTION ANISOTROPIC FILM, LAMINATE, AND IMAGE DISPLAY DEVICE - An object of the invention is to provide a coloring composition with which a light absorption anisotropic film having excellent light resistance can be formed, a light absorption anisotropic film, a laminate, and an image display device. A coloring composition according to the invention contains a dichroic dye compound having an azo group; and an oxidant or a singlet oxygen quencher. | 2019-04-04 |
20190101677 | POLARIZING PLATE WITH OPTICAL COMPENSATION LAYER AND ORGANIC EL PANEL USING SAME - There is provided a polarizing plate with optical compensation layers having the following features: the polarizing plate is excellent in antireflection characteristic in an oblique direction while maintaining an excellent antireflection characteristic in a front direction; the polarizing plate can achieve such excellent antireflection characteristics over a wide wavelength band; and the polarizing plate has a neutral hue in the oblique direction. A polarizing plate with optical compensation layers according to the present invention is used for an organic EL panel. The polarizing plate with optical compensation layers includes: a polarizer; a first optical compensation layer; a second optical compensation layer; a third optical compensation layer; and a fourth optical compensation layer. Each of the first optical compensation layer, the second optical compensation layer, the third optical compensation layer, and the fourth optical compensation layer shows a refractive index characteristic of nx>nz>ny. | 2019-04-04 |
20190101678 | POLARIZING PLATE WITH OPTICAL COMPENSATION LAYER AND ORGANIC EL PANEL USING SAME - There is provided a polarizing plate with optical compensation layers having the following features: the polarising plate is excellent in antireflection characteristic in an oblique direction while maintaining an excellent antireflection characteristic in a front direction; the polarizing plate can achieve such excellent antireflection characteristics over a wide wavelength band; and the polarizing plate has a neutral hue in the oblique direction. A polarizing plate with optical compensation layers according to the present invention is used for an organic EL panel. The polarizing plate with optical compensation layers includes: a polarizer; a first optical compensation layer; a second optical compensation layer; and a third optical compensation layer. Each of the first optical compensation layer, the second optical compensation layer, and the third optical compensation layer shows a refractive index characteristic of nx>nz>ny. | 2019-04-04 |
20190101679 | LIGHT EMITTING DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - A light emitting device includes a first light source unit and a second light source unit that emit three or more types of laser light beams having wavelengths different from each other, a light guide portion in which the laser light beams emitted from both the first light source unit and the second light source unit are guided, and a first heat sink and a second heat sink that respectively hold the first light source unit and the second light source unit at predetermined positions, and dissipate heat generated from the first light source unit and the second light source unit. | 2019-04-04 |
20190101680 | IMAGING APPARATUS - An imaging apparatus includes an imaging element, a lens unit that focuses light on the imaging element, a light source located around the lens unit, a light guide body that surrounds the lens unit and that guides light emitted from the light source, and a framing member surrounding the light guide body, wherein the light guide body includes an engagement concave part that engages an engagement convex part of the framing member. | 2019-04-04 |
20190101681 | EDGE-LIT TYPE BACKLIGHT MODULE AND DISPLAY DEVICE - An edge-lit type backlight module and a display device are provided. The edge-lit type backlight module includes a light guide plate having a first surface and a second surface opposite to each other, as well as a first end and a second end opposite to each other, the first end and a second end having a distribution orientation parallel to the first surface; a light source disposed on the first surface of the light guide plate and being close to the first end of the light guide plate; a metal grating disposed on the second surface of the light guide plate, an orthographic projection of the metal grating on the first surface covering an orthogonal projection of the light source on the first surface. | 2019-04-04 |
20190101682 | WIDE DISPERSION SOURCE MULTIPLE PATH LIGHT DIRECTION SYSTEM - A lighting system uses optics to redirect stray light from unlensed LEDs toward a desired region while avoiding hot spots. The optics involve essentially planar surfaces with both reflective and light transmissive characteristics. The lighting system may be used in display cases. | 2019-04-04 |
20190101683 | LIGHTING DEVICE AND DISPLAY DEVICE - A lighting device includes a light source, a light guide plate, an optical sheet, and a light blocking member. The light guide plate includes a section of a peripheral surface opposed to the light source defined as a light entering surface, a section of the peripheral surface opposite from the light entering surface defined as an opposite surface, and a light exiting plate surface through which light exits. The optical sheet is disposed over the light exiting plate surface. The light blocking member is in an outer edge area of at least one of the light guide plate and the optical sheet to block the light from the light guide plate through the light exiting plate surface. The light blocking member extends in a peripheral direction along the peripheral surface in which the light entering surface and the opposite surface are arranged. | 2019-04-04 |
20190101684 | OPTICAL BODY AND LIGHT EMITTING DEVICE - There is provided an optical body including: a base material; and a light extraction unit that is formed on a surface of the base material and that extracts, to an outside of the base material, internally propagating light that is injected in an inside of the base material from a side surface of the base material. The light extraction unit is formed of a convex microlens array, and a maximum inclination angle of the convex microlens array substantially coincides with a maximum propagation angle of the internally propagating light. | 2019-04-04 |
20190101685 | OPTICAL BODY, METHOD FOR MANUFACTURING OPTICAL BODY, AND LIGHT-EMITTING APPARATUS - There is provided an optical body including: a base material; a second optical layer, formed on at least one surface of the base material, that reduces a reflection of extraneous light; and a first optical layer, laminated on top of a part of the second optical layer, that extracts internally propagating light incident inside the base material from a side face of the base material to an outside of the base material. On a surface of the first optical layer, a first concave-convex structure that reflects the internally propagating light is formed. | 2019-04-04 |
20190101686 | Stack Lighter Luminaire - A luminaire module including a plurality of light-emitting elements (LEEs) arranged to emit light in a forward direction; a light guide comprising a pair of opposing side surfaces extending from a receiving end of the light guide to an opposing end of the light guide, the light guide configured to guide light received at the receiving end from the LEEs in the forward direction to the opposing end, wherein the light guide is elongated along a transverse direction orthogonal to the forward direction; and an optical extractor elongated along the transverse direction and located at the opposing end of the light guide to receive the guided light, the optical extractor comprising a redirecting surface and an output surface, wherein the received light undergoes two reflections off the redirecting surface prior to being output through the output surface in an ambient environment as output light in a backward angular range. | 2019-04-04 |
20190101687 | TECHNIQUES FOR ENHANCED DIFFUSION LIGHTING - Techniques for creating, configuring, and employing diffusion light devices are presented. Such light device(s) can comprise or be associated with a light management component (LMC) that can employ sensors to monitor environmental conditions in a defined area of people or vehicles, and a diffusion component that can diffuse or otherwise process light. At a least a portion of the diffusion component and/or a light component can be formed of a fabric that can emit light and/or diffuse light. LMC can enhance function of the light device to manage diffusion of light or perform other tasks to enhance user experience and safety and security of people or vehicles. Based on results of analyzing sensor data relating to the conditions, LMC can determine and facilitate implementing an adjustment(s) to a parameter(s) of the diffusion component or light component to achieve desired emission or diffusion of light. | 2019-04-04 |
20190101688 | PLANAR LIGHT SOURCE DEVICE AND LIQUID CRYSTAL DISPLAY DEVICE - An embodiment of the present invention reduces difference in brightness between a portion where a tab of an optical sheet is formed and a portion where the tab is not formed. A frame ( | 2019-04-04 |
20190101689 | LIGHT GUIDE PLATE, LIGHT GUIDE PLATE MODULE, BACKLIGHT MODULE AND DISPLAY DEVICE - Embodiments of the present disclosure provide a light guide plate, a light guide plate module, a backlight module and a display device. The light guide plate includes a light-exiting surface and a bottom surface disposed opposite to each other; and a light-entering side and a plurality of side surfaces arranged between the light-exiting surface and the bottom surface. At least one of the plurality of side surfaces is provided thereon with at least one light-deflecting structure that is configured to reflect part of light emitted from the at least one side surface to at least one selected area inside the light guide plate. | 2019-04-04 |
20190101690 | BACKLIGHT DEVICE AND MANUFACTURING METHOD THEREOF - The present disclosure relates to the field of display technologies, and especially discloses a backlight device and a method for manufacturing the same. The backlight device includes a backlight source, a light guide plate, a reflective layer, an optical adhesive layer and an outcoupling structure. Specifically, in the backlight device, the reflective layer and the light guide plate are located on opposite sides of the backlight source respectively. | 2019-04-04 |
20190101691 | LIQUID CRYSTAL DISPLAY DEVICE - A liquid crystal display device provided with a liquid crystal display panel having a pair of transparent substrates disposed to face with each other via a liquid crystal Iayer, and a backlight unit disposed on a back surface of the liquid crystal display panel for radiating a backlight ray is configured to have a plate member opposite a side wall surfaces of the liquid crystal display panel and a side wall surfaces of the backlight unit. The plate member is fixed to the side wall surface of the liquid crystal display and the side wall surface of the backlight unit. | 2019-04-04 |
20190101692 | LIGHT GUIDE PLATE, BACKLIGHT MODULE AND DISPLAY MODULE - A light guide plate, a backlight module and a display module are disclosed. The light guide plate includes a light guide plate body. The light guide plate body includes a main portion and two end portions. The two end portions are at two opposite ends of the main portion. Each end portion includes a light incident surface. | 2019-04-04 |
20190101693 | OPTICAL FIBER, AND SYSTEM AND METHOD FOR MANUFACTURING OPTICAL FIBER - An optical fiber comprises, from a center to a periphery, a fiber core of undoped silica; a cladding layer; and a coating of polyacrylate, wherein the fiber core has a radius of 5 to 7 μm and an ellipticity of less than 1.5%, the cladding layer with an ellipticity of less than 0.4% comprises inner, intermediate, and outer cladding layers, the inner cladding layer being doped with fluorine of 5 to 12 μm thickness, and refractive index difference to fiber core of −0.4 to −0.2%, the outer cladding layer being undoped quartz of 25 to 45 μm thickness, and the coating comprises an inner coating of 25 to 40 μm thickness, and an outer coating of 25 to 35 μm thickness and an ellipticity of less than 2%. The optical fiber has high durability and large effective transmission area, a method and system for preparing such optical fiber are also disclosed. | 2019-04-04 |
20190101694 | MULTI-MODE OPTICAL FIBER AND METHODS FOR MANUFACTURING THE SAME - Methods of manufacturing multi-mode optical fiber, and multi-mode optical fiber produced thereby, are disclosed. According to embodiments, a method for forming an optical fiber may include heating a multi-mode optical fiber preform and applying a draw tension to a root of the multi-mode optical fiber preform on a long axis of the multi-mode optical fiber preform thereby drawing a multi-mode optical fiber from the root of the multi-mode optical fiber preform. The draw tension may be modulated while the multi-mode optical fiber is drawn from the root of the multi-mode optical fiber preform. Modulating the draw tension introduces stress perturbations in the multi-mode optical fiber and corresponding refractive index perturbations in a core of the multi-mode optical fiber. | 2019-04-04 |
20190101695 | HOLLOW-CORE OPTICAL FIBERS - An anti-resonant hollow-core fiber comprising a first tubular, cladding element which defines an internal cladding surface, a plurality of second tubular elements which are attached to the cladding surface and together define a core with an effective radius, the second tubular elements being arranged in spaced relation and adjacent ones of the second tubular elements having a spacing therebetween, and a plurality of third tubular elements, each nested within a respective one of the second tubular elements. | 2019-04-04 |
20190101696 | SUBSTRATE-TYPE OPTICAL WAVEGUIDE AND INTRODUCING METHOD - A substrate-type optical waveguide includes: a mode conversion section including a first input light guide path and a first output light guide path; and a polarization conversion and multiplexing section including a second input light guide path and a second output light guide path. The mode conversion section converts light input into the first input light guide path into either: a superposition of a first TE fundamental mode and a first TE higher mode; or a superposition of a first TM fundamental mode and a first TM higher mode. The polarization conversion and multiplexing section converts either: the superposition of the first TE fundamental mode and the first TE higher mode; or the superposition of the first TM fundamental mode and the first TM higher mode, into a superposition of a second TE fundamental mode and a second TM fundamental mode. | 2019-04-04 |
20190101697 | BACK END OF LINE PROCESS INTEGRATED OPTICAL DEVICE FABRICATION - An integrated optical device fabricated in the back end of line process located within the vertical span of the metal stack and having one or more advantages over a corresponding integrated optical device fabricated in the silicon on insulator layer. | 2019-04-04 |
20190101698 | FLUID-FILLED HOLLOW OPTICAL FIBER CELL - A fluid-filled hollow optical fiber cell broadly includes a hollow-core optical fiber and a fluid. The optical fiber presents first and second fiber ends and a longitudinal passageway that extends continuously between the fiber ends. The fluid occupies the passageway, with the fiber ends being closed to hermetically seal the fluid within the optical fiber. The first fiber end has a rounded closed shape formed by at least partly melting the first fiber end to form melted fiber material, with the fiber material being permitted to solidify without splicing the first fiber end to another fiber so that the fiber material terminates the passageway at the first fiber end. | 2019-04-04 |
20190101699 | PHOTONIC INTERCONNECTION SWITCHES AND NETWORK INTEGRATED IN AN OPTOELECTRONIC CHIP - A photonic interconnection elementary switch is integrated in an optoelectronic chip/The switch includes first and second linear optical waveguides which intersect to form a first intersection. Two first photonic redirect ring resonators are respectively coupled to the first and second optical waveguides. Two second photonic redirect ring resonators are respectively coupled to the first and second optical waveguides. A third linear optical waveguide is coupled to one of the first ring resonators and one of the second ring resonators. A fourth linear optical waveguide is coupled to another of the first resonators and to another of the second ring resonators. A base switch, complex switch, and photonic interconnection network integrated in an optoelectronic chip, include at least two of the photonic interconnection elementary switches. | 2019-04-04 |
20190101700 | DEVICE FOR FORMING AT LEAST ONE FOCUSED BEAM IN THE NEAR ZONE, FROM INCIDENT ELECTROMAGNETIC WAVES - The present disclosure concerns a device for forming at least one focused beam in a near zone, from an electromagnetic wave incident on said device. Such device is remarkable in that it comprises at least one layer of a dielectric material comprising at least partially a first element, said first element having a first refractive index value, said first element comprising at least partially a second element, said second element having a second refractive index value greater than said first index value, and wherein said second element comprises at least a base surface, defined with respect to an arrival direction of said electromagnetic wave, and wherein said at least a base surface comprises at least two opposite edge line segments whose shape and associated base angles between said at least a base surface and a lateral surface of said second element, in a vertical plane with respect to said at least a base surface, control a shape of said at least one focused beam. | 2019-04-04 |
20190101701 | OPTICAL CONNECTOR FERRULE, OPTICAL CONNECTOR, AND OPTICAL COUPLING STRUCTURE - An optical connector ferrule, an optical connector, and an optical coupling structure according to an embodiment includes an optical connector ferrule that includes a ferrule end face that faces a counterpart connector; and an optical fiber holding hole that is open to the ferrule end face and holds an optical fiber inserted thereinto. A normal direction of the ferrule end face is inclined with respect to a direction of an optical axis of the optical fiber in a section along the optical axis of the optical fiber inserted into and held in the optical fiber holding hole. An inclined angle (θ) of the normal direction with respect to the direction of the optical axis is between 10 | 2019-04-04 |
20190101702 | INTEGRATED FIBER-FERRULE, FIBER OPTIC ASSEMBLY INCORPORATING SAME, AND FABRICATION METHOD - An integrated fiber-ferrule useable as an optical coupling element includes a core directly contacting a cladding layer that has a lower index of refraction than that of the core, without an intervening adhesive. The cladding layer outer diameter is at least 100 times greater than that of the core, and matches an outer diameter of a standard ferrule. The integrated fiber-ferrule may be produced by drawing a glass preform into a cane, cutting the cane into sections, and shaping end faces of the cut sections (e.g., using a laser). To form a fiber optic assembly, a front end of an optical fiber core may be fusion spliced to a rear end of the core of the integrated fiber-ferrule. Use of an integrated fiber-ferrule permits reduction of core to fiber eccentricity, and reduction of connector insertion losses. | 2019-04-04 |
20190101703 | FIBER OPTIC CONNECTOR ADAPTER WITH SHUTTER HAVING SELECTIVE WAVELENGTH TRANSPARENCY - An optical fiber adapter for supporting a non-collimated laser light source transmitting a laser light with a first signal wavelength. The optical fiber adapter includes an infrared signal transmitter for transmitting an infrared signal, and an infrared signal receiver for receiving the infrared signal. The infrared signal includes a second signal wavelength. The optical fiber adapter also includes a movable shutter door intersecting the infrared signal in a shutter closed position. The shutter door includes a material that is adapted to pass the infrared signal therethrough when in the shutter closed position. The shutter door includes a material that is adapted to block the first signal wavelength therethrough when in the shutter closed position. The shutter door is positioned distally from the non-collimated laser light source a distance by which the laser light attenuates to not transmit through the shutter door in the shutter closed position. The shutter is movable to a shutter open position to not block the laser light source transmitting the laser light with the first signal wavelength. | 2019-04-04 |
20190101704 | OPTICAL CONNECTOR AND OPTICAL CONNECTION STRUCTURE - An optical connector includes an optical fiber including a glass fiber and a resin coating surrounding the glass fiber; a ferrule having a flange outside the ferrule and holding, inside the ferrule, a portion of the glass fiber exposed from the resin coating at an end of the optical fiber; a plug frame accommodating the ferrule; and an elastic member abutting the flange and biasing the ferrule forward in an optical axis direction of the optical fiber to retain the ferrule inside the plug frame. The flange and the plug frame have a protrusion and a recess that allow the flange and the plug frame to be fitted to each other at the predetermined position. When the ferrule is moved rearward in the optical axis direction, the protrusion and the recess are released from each other to bring the ferrule into a floating state relative to the plug frame. | 2019-04-04 |
20190101705 | OPTICAL CONNECTOR AND OPTICAL CONNECTION STRUCTURE - An optical connector includes an optical fiber, a ferrule holding the optical fiber, and a plug frame accommodating the ferrule. The optical fiber includes a glass fiber and a resin coating surrounding the glass fiber. The ferrule has a through-hole inside the ferrule and a flange outside the ferrule. The flange has a quadrangular cross-section perpendicular to the through-hole. The ferrule holds the glass fiber in the through-hole. The plug frame has a quadrangular tubular cross-section perpendicular to the through-hole. In one aspect, the flange has first and second faces opposing each other with the through-hole there between and third and fourth faces opposing each other with the through-hole there between and orthogonal to the first and second faces. The plug frame has two alignment parts capable of supporting the first and second faces, and there are clearances between the plug frame and the third and fourth faces. | 2019-04-04 |
20190101706 | OPTICAL PLUG HAVING A REMOVABLE AND REPLACEABLE NOSEPIECE AND A COMPLIMENTARY RECEPTACLE - Disclosed are optical plugs and optical connectors for making optical connections. The optical plugs and optical connectors disclosed have a nosepiece that is easily removed and replaced for allowing access to the optical interface for cleaning and the nosepiece may also protect the optical interface when installed. The nosepiece may be a single component or an assembly as desired. The devices disclosed may be hybrid devices providing both optical and electrical connectivity or they may solely have optical connectivity if desired. | 2019-04-04 |
20190101707 | OPTICAL CONNECTOR - An optical connector includes a first attachment area for receiving and permanently attaching to an optical waveguide. A light coupling unit is disposed and configured to move translationally and not rotationally within the housing of the connector. The light coupling unit includes a second attachment area for receiving and permanently attaching to an optical waveguide received and permanently attached at the first attachment area. The light coupling unit also includes light redirecting surface. The light redirecting surface is configured such that when an optical waveguide is received and permanently attached at the first and second attachment areas, the light redirecting surface receives and redirects light from the optical waveguide. The optical waveguide limits, but does not prevent, a movement of the light coupling unit within the housing. | 2019-04-04 |
20190101708 | FIBER OPTIC ASSEMBLIES WITH FIBER BULGE FOR POSITIONING AN OPTICAL FIBER IN A FERRULE BORE - A fiber bulge (“bulge”) formed in an end of an optical fiber for positioning the optical fiber in a ferrule bore is disclosed. An energy source is controlled to direct focused energy to the end of the optical fiber extended from the front end face of the ferrule to expose and melt the end of the optical fiber into a bulge of desired geometry and size. The bulge comprises a cross-sectional region having an outer surface having a minimum outer diameter larger than the inner diameter of the ferrule bore. Thus, the optical fiber may be pulled back in the ferrule bore such that at least a portion of the outer surface of the interface region of the bulge interferes with and engages the front opening of the ferrule bore to position the fiber core within the ferrule bore. | 2019-04-04 |
20190101709 | RUGGEDIZED FEMALE FIBER OPTIC CONNECTOR CABLE ASSEMBLY - The present disclosure relates to a ruggedized female fiber optic connector designed to reduce cost. In one example, features of a fiber optic connector and a fiber optic adapter are integrated into one assembly. In another example, a female ruggedized optic connector is provided with a simple structure having a pre-assembled ferrule alignment sleeve including a ferrule. | 2019-04-04 |
20190101710 | OPTICAL RECEPTACLE AND OPTICAL MODULE - An optical receptacle having a first optical surface, a second optical surface, a first engaging section, and a second engaging section. The first optical surface has incident thereto first emitted light emitted from a photoelectric conversion element. The second optical surface emits, towards an end surface of an optical transmission body, the first emitted light that has been incident to the first optical surface and has passed through the interior of the optical receptacle. The first engaging section is arranged on a first side surface that is different from the surface on which the first optical surface is formed and the surface on which the second optical surface is formed. The second engaging section is arranged on a second side surface facing the first side surface across an optical path for the first emitted light or a second emitted light. | 2019-04-04 |
20190101711 | Active-Passive Waveguide Photonic System - Example embodiments relate to active-passive waveguide photonic systems. An example embodiment includes a monolithic integrated active/passive waveguide photonic system. The system includes a substrate having positioned thereon at least one active waveguide and at least one passive waveguide. The at least one active waveguide and the at least one passive waveguide are monolithically integrated and are arranged for evanescent wave coupling between the waveguides. The at least one active waveguide and the at least one passive waveguide are positioned so that at least a portion of each waveguide does not overlap the other waveguide, both in a height direction and in a lateral direction with respect to the substrate. | 2019-04-04 |
20190101712 | OPTICAL RECEPTACLE AND OPTICAL MODULE - An optical receptacle having a first optical receptacle for transmission and a second optical receptacle for reception. The first optical receptacle has a first engaging section and the second optical receptacle has a second engaging section that engages with the first engaging section. A first recessed section and a second recessed section that open externally are formed in the first optical receptacle. A third recessed section that opens externally is formed in the second optical receptacle. Part of each of the inner surfaces of the first recessed section, the second recessed section, and the third recessed section is a reflective surface. | 2019-04-04 |
20190101713 | OPTICAL TRANSCEIVER AND OPTICAL LENS THEREOF - An optical transceiver includes a substrate, a transceiver module, an optical lens and an adhesive. The transceiver module is disposed on an outer surface of the substrate. The optical lens is disposed on the outer surface for guiding light to the transceiver module. The optical lens defines a contact surface and at least one hole. The contact surface faces the outer surface, and an opening of the hole is located on the contact surface. The adhesive is accommodated into the hole from the opening, and the contact surface of the optical lens is adhered to the outer surface of the substrate by an adhesive. | 2019-04-04 |
20190101714 | OPTICAL MODULE - An optical module includes a board, a light emitter disposed on the board, a light receiver disposed on the board, and at least one radio-wave absorber disposed between the light emitter and the light receiver. | 2019-04-04 |
20190101715 | FIRE RETARDANT OPTICAL FIBER CABLE - An optical communication cable is provided. The optical communication cable includes a cable jacket and a plurality of optical fiber subunits surrounded by the cable jacket. Each optical fiber subunit includes a subunit jacket and a plurality of optical fibers located within the subunit passage. Each optical fiber includes an outer polymer buffer coating, such as a tight buffer coating. The outer cable jacket and/or the outer polymer buffer coating of the optical fibers is formed from a halogen containing polymer material including a fire retardant material, and the subunit jacket is formed from a polyolefin polymer material including a fire retardant material. | 2019-04-04 |
20190101716 | MODULE AND ENCLOSURE FOR USE THEREIN - A fiber optic module includes a housing having a first major surface and an opposite second major surface. The module includes an input configured to receive at least one module input fiber. The module includes at least one connectorized pigtail output routed from the housing. The pigtail output is configured to carry a signal from at the at least one module input fiber entering the housing via the input. The module further includes at least one connector storage feature disposed on the first major surface of the housing. The connector storage feature is configured to receive and store the connectorized pigtail output. | 2019-04-04 |
20190101717 | MODULAR FIBER OPTIC CASSETTE, SYSTEM AND METHOD - A modular fiber optic cassette system, method and cassette is disclosed. The system comprises a case defining a tray receiving space and an opening to a tray receiving space, at least one tray slideably received within the case for movement between a stored position wherein the tray is inside the case and an accessible position wherein a front end of the tray is in front of the opening and outside of the case, a plurality of fiber optic cassettes arrangeable side by side along the tray front end, a first of the cassettes comprising a first cassette width of one of one, two, three, four or six standard width units and a second of the cassettes comprising a second cassette width different from the first cassette width and one of one, two, three, four or six standard width units, and a fastener assembly for removeably securing each of the cassettes to the tray. | 2019-04-04 |
20190101718 | LENS UNIT - A lens unit is provided that includes: a first lens that is housed inside a lens-barrel, the first lens including a first lens section and a first flange section that juts out from the first lens section in a direction orthogonal to an optical axis direction; a second lens that is housed inside the lens-barrel further toward an imaging plane side than the first lens, the second lens including a second lens section and a second flange section that juts out from the second lens section in a direction orthogonal to the optical axis direction; and a spacing ring that is sandwiched between the first lens and the second lens and that defines a spacing between the first lens and the second lens, the spacing ring includes a main body disposed between the first flange section and the second flange section in the optical axis direction, first protrusion portions that protrude in the optical axis direction from an object side of the main body, and second protrusion portions that protrude in the optical axis direction from the imaging plane side of the main body and are disposed offset with respect to the first protrusion portions when projected along the optical axis direction. | 2019-04-04 |
20190101719 | CURVED PATTERN MARKER AND OPTICAL TRACKING DEVICE INCLUDING MARKER - A technical concept of the present invention provides: a curved pattern marker capable of improving the precision of position detection and reducing size; and an optical tracking device including the marker. The marker comprises: a first lens unit, which has at least one lens having an incident surface, emits incident light within a target range, and is formed such that a light parallel to an optical axis among the incident light is vertically incident on the incident surface; a pattern unit having a curved pattern formed therein; and a second lens unit arranged between the first lens unit and the pattern unit, and adjusting the light emitted from the first lens unit such that the light is focused on the curved pattern. | 2019-04-04 |
20190101720 | LENS DRIVING APPARATUS - Disclosed is a lens driving apparatus. The lens driving apparatus includes a base formed at a center thereof with a first opening; a housing coupled with the base and having a second opening corresponding to the first opening; a yoke installed on the base and including a horizontal plate having a third opening corresponding to the first opening and a vertical plate protruding upward from the horizontal plate; a bobbin movably installed in the yoke and coupled with a lens module; a coil fixedly disposed around the bobbin; a plurality of magnets provided at the vertical plate of the yoke to face the coil; and a spring installed on at least one of upper and lower portions of the yoke to return the bobbin, which has moved up due to interaction between the magnet and the coil, to its initial position. | 2019-04-04 |
20190101721 | IMAGING DEVICES HAVING PROGRESSIVE MAGNIFICATION - A method and apparatus for capturing an image of at least one object appearing in a field of view (FOV). A housing has an image sensor and a base lens assembly fixedly mounted relative thereto. A moveable lens assembly is movably mounted relative to the housing. The moveable lens, the base lens assembly, and the image sensor are aligned such that light received within the FOV passes through the moveable lens and the base lens assembly and impinges onto the image sensor. The light received from the FOV forms an original image prior to entering the movable lens and the base assembly. Light from the FOV impinging onto the sensor forms an impinging image. | 2019-04-04 |
20190101722 | LENS DRIVE DEVICE, CAMERA MODULE, AND CAMERA MOUNT DEVICE - The lens drive device is provided with: a flat AF coil, having a first linear part positioned on the light-receiving side in the optical axis direction, and a second linear part positioned on the image-forming side in the optical axis direction; a single-surface-two-pole AF magnet, configured with a first magnet facing the first linear part and a second magnet facing the second linear part; and a yoke arranged so as to cover the surface of the first magnet on the light-receiving side in the optical axis direction. The surface area of the first magnet surface facing the first linear part is greater than the surface area of the second magnet surface facing the second linear part, and the magnetic flux that crosses the first linear part is greater than the magnetic flux that crosses the second linear part across the entire movable range of an AF moving part. | 2019-04-04 |
20190101723 | REAL-TIME AUTOFOCUS FOCUSING ALGORITHM - A digital scanning apparatus is provided that includes imaging and focusing sensors and a processor to analyze the image data captured by the imaging and focusing sensors and adjust the focus of the scanning apparatus in real time during a scanning operation. The individual pixels of the imaging sensor are all in the same image plane with respect to the optical path of the digital scanning apparatus. The individual pixels of the focusing sensor are each in a different image plane with respect to the optical path, and one pixel of the focusing sensor is on the same image plane as the image sensor. The processor analyzes image data from the imaging sensor and the focusing sensor and determines a distance and direction to adjust the relative position of an objective lens and a stage of the digital scanning apparatus to achieve optimal focus during the scanning operation. | 2019-04-04 |
20190101724 | ELECTRONIC DEVICE - An electronic device includes at least one optical lens assembly. The optical lens assembly includes four lens elements, and the four lens elements are, in order from an outside to an inside, a first lens element, a second lens element, a third lens element and a fourth lens element. The first lens element has an outside surface being convex in a paraxial region thereof. The second lens element has an inside surface being convex in a paraxial region thereof. The fourth lens element has an inside surface being concave in a paraxial region thereof, wherein at least one of an outside surface and the inside surface of the fourth lens element includes at least one critical point in an off-axis region thereof. | 2019-04-04 |
20190101725 | PHOTOGRAPHING LENS OPTICAL SYSTEM - Provided is a photographing lens optical system. The lens optical system includes a first lens, a second lens, a third lens, a fourth lens, and a fifth lens sequentially arranged from an object to an image sensor. The first lens may have a negative (−) refractive power and have an exit surface that is concave with respect to the image sensor. The lens optical system may satisfy at least one of a condition 100°2019-04-04 | |
20190101726 | LENS ASSEMBLY - A lens assembly includes a first lens, a second lens, a third lens, a fourth lens, and a fifth lens arranged along an optical axis in order from an object side to an image side. The first lens is a meniscus lens with positive refractive power, and an object-side surface of the first lens is convex. The second lens is a lens with positive refractive power, and an object-side surface of the second lens is convex. The third lens is a lens with negative refractive power, and an object-side surface and an image-side surface of the third lens are concave. The fourth lens is a meniscus lens with negative refractive power. The fifth lens is a lens with positive refractive power, and an object-side surface of the fifth lens is convex. | 2019-04-04 |
20190101727 | FIXED FOCAL LENGTH LENS AND IMAGE PICKUP APPARATUS - A fixed focal length lens including, in order from an object side to an image side, a first lens unit having a positive refractive power, a second lens unit and a third lens unit, wherein the first lens unit does not move for focusing, at least the second lens unit moves for focusing, a distance between each pair of adjacent lens units changes for focusing, and the first lens unit includes two negative lenses disposed in succession from the object side, and wherein a focal length of the fixed focal length lens, a focal length of the first lens unit, and a combined focal length of the two negative lenses of the first lens unit are appropriately set. | 2019-04-04 |
20190101728 | OPTICAL IMAGING LENS - Present embodiments provide for optical imaging lenses. An optical imaging lens may include at least seven lens elements positioned sequentially from an object side to an image side. Through arrangement of the convex or concave surfaces of the lens elements, the length of the optical imaging lens may be shortened while providing better optical characteristics and imaging quality. | 2019-04-04 |
20190101729 | OPTICAL IMAGING LENS - Present embodiments provide for an optical imaging lens. The optical imaging lens includes a first lens element, a second lens element, a third lens element, a fourth lens element, a fifth lens element a sixth lens element, a seventh lens element and a eighth lens element positioned sequentially from an object side to an image side. Through arrangement of convex or concave surfaces of the eight lens elements, the length of the optical imaging lens may be shortened while providing better optical characteristics and imaging quality. | 2019-04-04 |
20190101730 | IMAGE CAPTURING LENS SYSTEM, IMAGE CAPTURING APPARATUS AND ELECTRONIC DEVICE - An image capturing lens system, including, in order from an object side to an image side: a first lens element with positive refractive power having an object-side surface being convex thereof; a second lens element having negative refractive power; a third lens element; a fourth lens element; a fifth lens element with negative refractive power having at least one of an object-side surface and an image-side surface thereof being aspheric and having at least one inflection point thereof; and a sixth lens element with positive refractive power having both an object-side surface and an image-side surface being convex thereof and at least one of the object-side surface and the image-side surface thereof being aspheric; wherein the image capturing lens system has a total of six lens elements. | 2019-04-04 |