Abstract: Compressive imaging captures images in compressed form, where each sensor does not directly correspond with a pixel, as opposed to standard image capture techniques. This can lead to faster image capture rates due to lower I/O bandwidth requirements, and avoids the need for image compression hardware, as the image is captured in compressed form. Measuring the transformation of an emitted multimodal signal is one method of compressive imaging. Metamaterial antennas and transceivers are well suited for both emitting and receiving multimodal signals, and are thus prime candidates for compressive imaging.

Abstract: This disclosure is directed to systems, methods, and devices for integrating weather radar data from both ground-based and aircraft weather radar systems. An example system is configured to receive weather radar data from a first weather radar system. The system is further configured to receive weather radar data from one or more additional weather radar systems. The system is further configured to combine the weather radar data from the first weather radar system and the weather radar data from the one or more additional weather radar systems into a combined weather radar data set. The system is further configured to generate an output based on the combined weather radar data set.

Abstract: An underwater navigation system is provided, comprising: a transducer configured to emit a first and second acoustic pulses separated by a predetermined time period; a receiver array comprising a plurality of acoustic receivers each configured to receive first reflected portions of the first acoustic pulses and second reflected portions of the second acoustic pulses; the array including a plurality of neighbouring pairs of acoustic receivers wherein a distance between a first neighbouring pair is different from a distance between a second neighbouring pair; and a processor coupled to the receiver array, and configured to generate a velocity measurement based on the predetermined time period and signals from the receiver array representing the first and second reflected portions.

Abstract: A method uses an underwater vehicle travelling along an underwater surface projecting high frequency sound at the underwater surface to produce an image of the underwater surface with sufficient along track and cross track resolution to be able to identify cracks or other irregularities in the underwater surface.

Abstract: Ultrasound methods involve generating ultrasound using virtual point sources. Apodization may be applied selectively to transducer elements to provide improved uniformity of response. Virtual point sources may be located at positions that are independent of transducer geometry. The number and/or locations of virtual point sources may be selected to cover a region of interest with a reduced number of ultrasound transmissions.

Abstract: According to an embodiment, a distance measuring device includes a light source, a reflection device, a first photodetector and a calculation unit. The reflection device includes a reflection surface configured to scan an object to be measured with light by reflecting the light, and configured to reflect scattered light of the light scattered on the object to be measured. The first photodetector detects the scattered light. The calculation unit calculates a distance from the reflection surface to each of positions on the object to be measured based on a detection result of the first photodetector. The first photodetector includes a photoelectric conversion element including a plurality of detection regions each having different detection sensitivity of the light. The detection regions are arranged in order according to an incident position of the scattered light from the object to be measured at each of positions having the different distance.

Abstract: The invention provides an electro-optical distance meter, which comprises a light emitting element for emitting a distance measuring light, signal generators for generating two or more proximity frequencies, intermittent pulse generators for generating a modulation signal in which the two or more proximity frequencies are intermitted respectively and converted to pulses with a predetermined width, a projecting optical system for sequentially switching over and projecting intermittent modulated distance measuring light as converted to pulses with predetermined width by the modulation signal, a photodetection unit for receiving a reflected distance measuring light from an object to be measured and producing an intermittent photodetection signal with a predetermined pulse width, other signal generators for generating frequency signals having a difference of a predetermined frequency with respect to the proximity frequency respectively, a frequency converting unit for performing frequency conversion by mixing the

Abstract: The present invention provides a measurement apparatus for measuring one of a position and an attitude of a measurement target, including an image sensor including one pixel unit in which a plurality of pixels adjacent to each other are arranged in a matrix and configured to capture the measurement target illuminated with a pattern light of a first wavelength and a light of a second wavelength and obtain a first image corresponding to the pattern light of the first wavelength and a second image corresponding to the light of the second wavelength, and an optical member configured to separate the pattern light of the first wavelength and the light of the second wavelength and make one of the pattern light of the first wavelength and the light of the second wavelength enter each pixel of the one pixel unit.

Abstract: Within examples, systems and methods of generating a synthetic image representative of an environment of a vehicle are described comprising generating a first image using infrared information from an infrared (IR) camera, generating a second image using laser point cloud data from a LIDAR, generating an embedded point cloud representative of the environment based on a combination of the first image and the second image, receiving navigation information traversed by the vehicle, transforming the embedded point cloud into a geo-referenced coordinate space based on the navigation information, and combining the transformed embedded point cloud with imagery of terrain of the environment to generate the synthetic image representative of the environment of the vehicle.

Abstract: A detector (110) for determining a position of at least one object (112) is proposed.

Abstract: Geofence crossing-based control systems and techniques are described herein. For example, a geofence crossing control technique may include receiving a location signal indicative of a range of locations in which a mobile computing device is located; receiving a velocity signal indicative of a speed and direction of the mobile computing device; generating, for each of a plurality of candidate geofence crossing times, a performance indicator based on the location signal, the velocity signal, and a boundary of the geofence; selecting a geofence crossing time from the plurality of candidate geofence crossing times based on the performance indicators; and transmitting a control signal representative of the geofence crossing time. Other embodiments may be disclosed and/or claimed.

Abstract: A global positioning system (GPS) receiver and system for determining a geographical location associated with the GPS receiver using less than four GPS signals. The system can comprise a constraint module configured to receive one or more constraints that describe at least one characteristic of a GPS receiver when a number of GPS satellites within a line of sight to the GPS receiver is below a defined value. The system can further comprise a pseudo range calculation module configured to calculate a plurality of pseudo ranges between the GPS receiver and the number GPS satellites, wherein the plurality of pseudo ranges are to various orbital positions of the GPS satellites over a period of time; and a geographical location module configured to determine the geographical location of the GPS receiver using the plurality of pseudo ranges and known constraints of motion associated with the GPS receiver.

Abstract: Techniques are disclosed for systems and methods using silicon photomultiplier (SiPM) based radiation detectors to detect radiation in an environment. An SiPM-based radiation detection system may include a number of detector assemblies, each including at least one scintillator providing light to a corresponding SiPM in response to ionizing radiation entering the scintillator. The radiation detection system may include a logic device and a number of other electronic modules to facilitate reporting, calibration, and other processes. The logic device may be adapted to process detection signals from the SiPMs to implement different types of radiation detection procedures. The logic device may also be adapted to use a communication module to report detected radiation to an indicator, a display, and/or a user interface.

Abstract: A method and apparatus for improvement of spatial resolution in molecular and radiological imaging is presented. System equipment includes bed with either flat or cylindrical detectors large detector arrays with collimator(s), lens(s), mirror(s) and/or shutter(s). This system utilizes magnification principles with large detector arrays. There is error reduction by reduction of non-collinearity error as seen in current PET scans by determination of the trajectory of the photons and accurate localization of the annihilation event of a positron. Additional error reduction of random coincidence and scatter coincidence is seen. Overall, this method and apparatus affords improved spatial resolution and higher efficiencies, which would allow for lower cost and dose reduction to the patient.

Abstract: A neutron scintillator includes a resin composition having a resin and an inorganic phosphor containing at least one kind of neutron-capturing isotope that is selected from lithium 6 and boron 10 such as Eu:LiCaAlF6. The resin composition contains 0.2-30×1018 atom/mm3 of lithium 6 and 0.05-8×1018 atom/mm3 of boron 10 and is in such a form that the average diameter of inscribed spheres is 5 mm or less. A neutron scintillator is formed of a resin-based composite having a plurality of parts formed of the aforesaid resin composition and supplementing part(s), in which the content of the neutron-capturing isotope is not more than ½ of the content of the neutron-capturing isotope in the resin composition. The ratio of the distance between the centers of inscribed spheres in the individual parts formed of the resin composition to the sum of the diameters of the inscribed spheres therein is 1.2 or greater.

Abstract: Embodiments of the invention provide a radiation detector, comprising a convertor comprising an inorganic scintillator for absorbing incident neutrons and outputting photons, a light collecting body arranged in relation to a wavelength shifting fibre for receiving photons from the convertor and directing the photons to the wavelength shifting fibre, and one or more photo-detectors arranged to receive photons from the wavelength shifting fibre and output electrical signals in response thereto.

Abstract: A neutron spectrometer that is more accurate, faster, and more-portable than conventional spectrometers includes an organic scintillator responsive to neutrons and gammas and an inorganic scintillator that captures neutrons. A processor receives signals representative of scintillations in the organic scintillator and in the inorganic scintillator and discriminates neutron signals from gamma signals. The processor also determines pulse areas for neutron moderating signals and performs unfolding based on the determined pulse areas to produce a neutron energy spectrum and/or dose information.

Abstract: An apparatus for sensing a parameter beneath a surface of the earth includes an optical fiber disposed beneath a surface of the earth and comprising at least one fiber Bragg grating sensor configured to sense the parameter and a wide-band light source disposed beneath the surface of the earth and configured to emit light in a wide band of wavelengths to illuminate the at least one fiber Bragg grating. An optical interrogator is disposed beneath the surface of the earth and configured to receive light reflected by the at least one fiber Bragg grating sensor and to transform a shift in wavelength of the reflected light into a variation of light intensity. A photo-sensor is configured to measure intensity of light received from the optical interrogator. Electronics are coupled to the photo-sensor and configured to measure a voltage representing the light intensity at the photo-sensor to sense the parameter.

Abstract: A system and method for performing a target-oriented reverse time migration may include obtaining a seismic dataset and a geologic model representative of the subsurface volume of interest; identifying a target based on the seismic dataset and the geologic model; calculating a normal to represent a structural dip direction for at least one point on the target; upward propagating a cluster of beams from the at least one point on the target to a surface representing an acquisition surface of the seismic data; identifying valid source-receiver beam pairs based on coverage of the seismic dataset; accumulating coverage of the valid source-receiver beam pairs; identifying traces from the seismic dataset that fall within the accumulated beam pair coverage; and performing a target-oriented reverse time migration using the identified traces to produce a seismic image.

Abstract: Methods and systems for processing seismic data for improving an image of a surveyed subsurface. The method includes receiving seismic data associated with the surveyed subsurface; applying a multi-layer non-linear slope tomography algorithm to iteratively calculate a new boundary of a first layer of the surveyed subsurface and to calculate a velocity attribute of a second layer of the surveyed subsurface; and generating an improved image of the surveyed subsurface based on the new boundary of the first layer and the velocity attribute of the second layer.

Abstract: Various implementations directed to determining a fracture type using stress analysis are provided. In one implementation, a method may include receiving seismic data acquired in a seismic survey of a region of interest. The method may also include performing a kinematic analysis on the seismic data. The method may further include generating fracture planes from the seismic data based on the kinematic analysis. The method may additionally include generating a mechanical earth model based on the seismic data. The method may further include performing a critical stress analysis on the fracture planes based on the mechanical earth model. The method may also include determining a fracture type of respective fractures in the fracture planes based on the critical stress analysis.

Abstract: A time-lapse electromagnetic (EM) monitoring system for a formation includes at least one EM source and at least one EM field sensor to collect EM survey data corresponding to the formation in response to an emission from the at least one EM source. The EM survey data includes first EM data collected at a first time and second EM data collected at a second time. The time-lapse EM monitoring system also includes a processing unit in communication with the at least one EM field sensor. The processing unit determines time-lapse EM data based on the first EM data and the second EM data, and performs an analysis of the time-lapse EM data to determine an attribute change in an earth model.

Abstract: The present disclosure describes various antenna assemblies, each antenna coil being disposed about a tool body section in an antenna pathway. The antenna pathway passes through alternating grooves and lands. At least one of the grooves is disposed in the tool body section at a non-axial direction relative to the longitudinal axis of the tool body section. The antenna coil may be an axial coil or a tilted coil. Additional grooves oriented at axial direction may be disposed on the tool body section. Various methods include acquiring a plurality of data pairs using one or more antenna coils, each data pair comprising an induced signal at a receiver and a corresponding toolface angle using a tool including at least one antenna assembly, to generate a measurement including obtaining information about the directionality of the formation by calculating areas of an induced signal function approximated by the plurality of data pairs.

Abstract: Metamaterials are used in well logging measurement tools to provide high directionality galvanic and induction tools having metamaterial focusing. Using metamaterial lenses, currents injected by galvanic tools can be focused in both axial and azimuthal directions. In addition, the focus plane can be shifted away from the tool body into a borehole formation, making measurements more sensitive to zones of interest and less sensitive to boreholes and invaded zones. Another metamaterial lens can bend injected currents toward the head of the tool, adding a look-ahead functionality.

Abstract: In an example embodiment, a nuclear magnetic resonance (NMR) logging tool comprises an arrangement of one or more magnets that generates a static magnetic field (B0) in a material body. A pair of first and second antenna coils is attached to the tool around an antenna core, wherein the turns of the first and second antenna coils are unaligned with either a longitudinal axis of the tool, or an orthogonal axis substantially transverse thereto. Circuitry drives the pair of first and second antenna coils in concert to produce a radio frequency field (B1) in the material body. In one embodiment, the turns in the first antenna coil are separated from corresponding turns in the second oppositely wound antenna coil by an angle (?). In an example embodiment, the angle (?) is selected to minimize a power draw of the tool, or maximize one or more of SNR/echo, (I), SNR/time, or (II) of the tool, for a predetermined configuration of the magnet arrangement and antenna core of the tool.

Abstract: A method, apparatus and system for profiling a material composition of a volume is disclosed. A beam source directs a pulsed beam of electromagnetic energy from into the volume. A plurality of backscattered beams is received at a detector. The plurality of backscattered beams is generated from a plurality of depths within the volume in response to interactions of the directed pulsed beam at the plurality of depths. A processor performs range gating of the plurality of backscattered beams to obtain a depth profile of backscattered intensity within the volume and estimates a material composition at different depths of the volume from the generated depth profile.

Abstract: Techniques for identifying sweet spots in unconventional hydrocarbon reservoirs are described. A rock sample is obtained from an unconventional hydrocarbon reservoir. The rock sample is evaluated using multiple rock sample evaluation techniques. A Young's modulus and a Poisson's ratio are determined for the rock sample. Geo-mechanical properties of the rock sample are determined based on results of evaluating the rock sample using the multiple rock sample evaluation techniques, the Young's modulus and the Poisson's ratio.

Abstract: Techniques for quantifying minerals in a formation sample include using a joint inversion of DRIFTS (diffuse reflectance infrared Fourier transform spectroscopy) spectra and XRF (X-ray fluorescence) data. This joint inversion produces quantification of additional minerals (e.g. pyrite and barite) than those quantified by the individual inversion method (DRIFTS-only). The method is applied to oilfield reservoir samples and the mineralogy solution is compared to the DRIFTS-only solution and to mineralogy estimated from benchmark FTIR (transmission Fourier transform infrared spectroscopy) method.

Abstract: An example method includes providing source light to an optical fiber deployed in a downhole environment, receiving backscattered light from the optical fiber, and producing one or more optical interferometry signals from the backscattered light. The method also includes converting each of the one or more optical interferometry signals to an electrical signal and digitizing each electrical signal to obtain one or more digitized electrical signals. The method also includes deriving acoustic activity values as a function of time and position from the one or more digitized electrical signal. The method also includes applying at least some of the acoustic activity values to a flow prediction model to obtain a predicted fluid flow as a function of time, wherein the flow prediction model includes a proppant compensation value or factor. The method also includes storing or displaying the predicted fluid flow.

Abstract: A sensor module may be formed including a core of ferromagnetic material associated with a wire coil forming a passive inductor resonant circuit, which may be used in temperature sensor modules and pressure sensor modules suitable for use in high temperature, high pressure, and corrosive environments. The passive inductor resonant circuits of the sensors may be tuned such that its resonant frequency is in a bounded frequency band interrogable with an electromagnetic energy signal having a frequency of less than or equal to about 10 MHz. Such sensors may be disposed in series in a sensor array, interrogable with an interrogation module, where the interrogation module may demultiplex, the frequencies of the multiple sensors to determine the environmental conditions sensed by the individual sensors.

Abstract: In some aspects, the present disclosure includes systems and methods for modeling a fracturing operation in a subsurface formation. The method includes generating an earth model of the subsurface formation, wherein the earth model is generated considering unstructured gridding; generating a fracture model of the subsurface formation based, at least in part, on the earth model of the subsurface formation, and wherein the fracture model is generated considering unstructured gridding; and performing a reservoir simulation of at least one reservoir in the subsurface formation based, at least in part, on the earth model and the fracture model, wherein the reservoir simulation is performed using unstructured gridding.

Abstract: Adverse optical effects from a cover glass used to cover a display of an information handling system may be reduced at an imaging area that covers an imaging device, such as a video camera. An anti-reflective coating may be applied at the imaging area over an anti-glare coating to improve light transmission and contrast at the imaging device.

Abstract: The invention relates to a method of applying an anti-reflective coating to an optical surface of a mold, including providing a lens mold having an optical surface, forming a deposition layer of a fluoride or oxide material to the optical surface of the lens mold, forming a layer of a hydrophobic material over the deposition layer, wherein the hydrophobic material contains an amount of dipodal silane that is a relative percentage of the hydrophobic material, forming a first layer of SiO2 with a thickness of 5-40 nm over the layer of the hydrophobic material, forming an anti-reflective coating layered structure over the first layer of SiO2, and forming a layer of a silane coupling agent that is deposited with a monolayer thickness to the anti-reflective coating layered structure using vapor deposition under aprotic conditions or by dip coating using a solution of silane coupling agent in an aprotic solvent.

Abstract: An anti-reflective, anti-static coating, optical articles employing such a coating, and methods of forming the same. The coating formed of alternating layers of low, mid, and/or high refractive index oxide materials and one or more layers of electrically conductive, substantially non-oxide forms of the same materials employed to form the alternating layers of low, mid, and/or high refractive index oxide materials.

Abstract: An inorganic optical element, including: a birefringent film 12 having a columnar structure; and a protective film 13 formed on the birefringent film 12, wherein a component of the protective film 13 enters a gap of the birefringent film 12.

Abstract: A transmission-type screen includes: a first lens array surface on which a plurality of first microlenses are arrayed; and a second lens array surface that is provided at a distance in a direction perpendicular to the first lens array surface and on which a plurality of second microlenses whose shape is different from the shape of the first microlenses are arrayed. A level line near a vertex is circular or elliptical in the first microlenses, and a level line near a vertex is elliptical with ellipticity different from the ellipticity of the level line of the first microlenses in the second microlenses.

Abstract: Systems and methods in accordance with embodiments of the invention actively align a lens stack array with an array of focal planes to construct an array camera module. In one embodiment, a method for actively aligning a lens stack array with a sensor that has a focal plane array includes: aligning the lens stack array relative to the sensor in an initial position; varying the spatial relationship between the lens stack array and the sensor; capturing images of a known target that has a region of interest using a plurality of active focal planes at different spatial relationships; scoring the images based on the extent to which the region of interest is focused in the images; selecting a spatial relationship between the lens stack array and the sensor based on a comparison of the scores; and forming an array camera subassembly based on the selected spatial relationship.

Abstract: The present invention discloses a light directing film comprising a first structured major surface, a second major surface opposite to the first structured major surface and a reference plane between the first structured major surface and the second major surface, wherein the reference plane is substantially perpendicular to the thickness direction of the light directing film, wherein the first structured major surface comprises a first prism element and a second prism element extending substantially in a first direction, wherein a first ridge of the first prism element has a first height relative to the reference plane and a second ridge of the second prism element has a second height relative to the reference plane, wherein the first height of the first ridge of the first prism element varies along the first direction. Preferably, the maximum of the first height is larger than the maximum of the second height.

Abstract: A polymer matrix/nanoparticle composite (PMNC) comprises core-shell nanoparticles, where the core is made of a material that is different from the polymer matrix and at least part of the shell is made of the same monomer or polymer that is used for said polymer matrix, or is made of a monomer or polymer compatible with said matrix. The core of the nanoparticles has a refractive index that is different from the refractive index of the polymer used for the matrix, at least the matrix is made of transparent materials that do not absorb light.

Abstract: The embodiments of the present invention provide a mask plate, a method for manufacturing a color film substrate and a color film substrate for decreasing the segment difference of the color filter layer, improving the transmittance of the color film substrate, thereby improving the display effect of the display substrate. Wherein the mask plate comprises: a plurality of first regions, each of the plurality of first regions corresponds to each subpixel unit; and a second region between two adjacent first regions; wherein each first region is respectively provided with one first subregion for forming a color filter layer pattern within a opening region of a black matrix layer, and two second subregions for forming a color filter layer pattern within a non-opening region of the black matrix layer; the first subregion is between the two second subregions; and in each second subregion: along the direction away from the first subregion, the transmittance of the second subregion gradually decreases or increases.

Abstract: An optically transparent, infrared-blocking, composite material includes a matrix of transparent, cross-linked, cellulose aerogel nanofibrils having infrared blocking ceramic nanoparticles essentially homogenously dispersed therein. The composite material is both optically transparent and infrared-blocking, and can include an adherent, transparent protective layer disposed on one or both of two opposing surfaces.

Abstract: An optical filter having a passband at least partially overlapping with a wavelength range of 800 nm to 1100 nm is provided. The optical filter includes a filter stack formed of hydrogenated silicon layers and lower-refractive index layers stacked in alternation. The hydrogenated silicon layers each have a refractive index of greater than 3 over the wavelength range of 800 nm to 1100 nm and an extinction coefficient of less than 0.0005 over the wavelength range of 800 nm to 1100 nm.

Abstract: The invention pertains to an optical device comprising a substrate with two main faces, and, on at least one face, a first coating which is in contact with a second coating, the first coating being positioned between the second coating and the substrate, the first coating is a release layer, adapted so that it can be selectively activated in order to diminish mechanical properties or adhesion enabling the second coating to be fastened to the substrate.

Abstract: The present invention relates to a laminate including an unstretched polymer film; and an unstretched polyvinyl alcohol-based film attached to at least one surface of the polymer film, and a preparing method for a thin polarizer using the laminate.

Abstract: A coatable polymer polarizer may be formed with a composition that includes a rigid rod-like polymer capable of forming a liquid crystal phase in a solvent. The rigid rod-like polymer may form an achromatic polarizer.

Abstract: There are provided a high brightness polarizing plate and a liquid crystal display device including the high brightness polarizing plate as a lower polarizing plate. The high brightness polarizing plate includes: a polarizer; and a protective film disposed on a side of the polarizer, wherein the protective film faces a backlight unit, and a primer layer including a low-refractive polymer resin and fine hollow particles is formed on a side of the protective film opposite to a side thereof facing the polarizer.

Abstract: A wire grid polarizer includes a substrate, a plurality of conductive wire patterns which protrudes from a surface of the substrate and each extends in a direction to be substantially parallel to each other, a flaw which is provided in at least one of the conductive wire patterns and protrudes in a direction different from the direction in which the conductive wire patterns extend, and a blocking portion which blocks the flaw.

Abstract: A method of manufacturing a polarizer includes forming a first layer on a base substrate, forming a first partition wall layer on the first layer, forming a second partition wall layer on the first partition wall, forming a plurality of first partition wall patterns and a plurality of second partition walls disposed on the first partition wall patterns by etching the first partition wall and the second partition wall at the same time, forming a block copolymer layer on the first layer on which the plurality of first partition wall patterns are formed, forming a plurality of fine patterns from the block copolymer layer, and patterning the first layer using the fine patterns and the second partition wall patterns as a mask.

Abstract: A polarizer for a display device is disclosed. In one aspect, the polarizer includes a linear polarizer and a phase retardation layer on the linear polarizer and comprising a quarter-wave plate and a half-wave plate. The half-wave plate includes a refractive index anisotropic layer. The refractive index anisotropic layer has a refractive index Nx defined in a direction of an x axis, a refractive index Ny defined in a direction of a y axis, and a refractive index Nz defined in a direction of a z axis, wherein Nx=Nz>Ny.

Abstract: In various embodiments a light emitting device is disclosed comprising a first and second source for emitting light with a first and a second spectral distribution, respectively, a first and second light guides comprising a first light input surface and a first light exit surface, respectively, the light input surface and the light exit surface of the respective light guide extending at an angle with respect to each other. The first and second light guide configured to convert a part of the received light to light with a third and fourth spectral distribution, respectively, and couple at least a part of the light with the third and fourth spectral distribution out of the first and second light exit surface, respectively. The light have the first and the second spectral distribution having different spectral distributions, and the light having the third and the fourth spectral distribution have different spectral distributions.