Abstract: Infrared imaging devices are provided which are configured to implement side-scan infrared imaging for, e.g., medical applications. For example, an imaging device includes a ring-shaped detector element comprising a circular array of infrared detectors configured to detect thermal infrared radiation, and a focusing element configured to focus incident infrared radiation towards the circular array of infrared detectors. The imaging device can be an ingestible imaging device (e.g., swallowable camera) or the imaging device can be implemented as part of an endoscope device, for example.

Abstract: Systems and methods are provided for protecting solar panels from damage due to overheating. A system comprises a solar panel and a control system. The solar panel comprises a plurality of solar cells, and a plurality of thermochromic temperature sensors thermally coupled to different areas of the solar panel. The thermochromic temperature sensors are configured to change color in response to heat generated by the solar cells in the different areas of the solar panel. The control system is configured to detect colors of the thermochromic temperature sensors, determine a temperature of each area of the solar panel based on the detected colors of the thermochromic temperature sensors, and cause the solar panel to shut down in response to determining that the temperature of at least one area of the solar panel exceeds a predetermined temperature threshold.

Abstract: Infrared imaging devices are provided which are configured to implement side-scan infrared imaging for, e.g., medical applications. For example, an imaging device includes a ring-shaped detector element comprising a circular array of infrared detectors configured to detect thermal infrared radiation, and a focusing element configured to focus incident infrared radiation towards the circular array of infrared detectors. The imaging device can be an ingestible imaging device (e.g., swallowable camera) or the imaging device can be implemented as part of an endoscope device, for example.

Abstract: Systems and methods are provided for protecting solar panels from damage due to overheating. A system comprises a solar panel and a control system. The solar panel comprises a plurality of solar cells, and a plurality of thermochromic temperature sensors thermally coupled to different areas of the solar panel. The thermochromic temperature sensors are configured to change color in response to heat generated by the solar cells in the different areas of the solar panel. The control system is configured to detect colors of the thermochromic temperature sensors, determine a temperature of each area of the solar panel based on the detected colors of the thermochromic temperature sensors, and cause the solar panel to shut down in response to determining that the temperature of at least one area of the solar panel exceeds a predetermined temperature threshold.

Abstract: A system comprises a first housing unit configured to mount to an external surface of a vehicle, wherein the first housing unit comprises a first coupler module, and electronic devices configured to enable object detection, wherein the electronic devices comprise an imaging system configured to generate image data of an incident scene in proximity to the vehicle. The system comprises a second housing unit configured to mount to an inner surface of the vehicle, in alignment with the first housing unit, wherein the second housing unit comprises a second coupler module. The first and second coupler modules are configured to interface and cooperatively operate to enable (i) wireless transfer of power from an electrical system of the vehicle to the electronic devices in the first housing unit and (i) wireless bidirectional communication between the electronic devices within the first housing unit and a computer system of the vehicle.

Abstract: A system comprises a photodetector array comprising a plurality of pixels, and a plurality of image processors. The photodetector array is logically partitioned into a plurality of regions comprising a central region, a first peripheral region, and a second peripheral region. Each image processor is configured to process image data generated by a respective one of the regions of the photodetector array.

Abstract: Passive detector structures for imaging systems are provided which implement unpowered, passive front-end detector structures with direct-to-digital measurement data output for detecting incident photonic radiation in various portions (e.g., thermal (IR), near IR, UV and visible light) of the electromagnetic spectrum.

Abstract: A health information exchange (HIE) system and related methods for sharing patient medical data among a plurality of users. In one embodiment, the HIE system includes a processor executing a software application and one or more databases. Medical data may be downloaded by a first user to the system in a source file format. The system converts and stores the medical data in a data record such as an object having a different type of data structure. Upon receiving a request from a second user for the medical data in a specified destination file format, the system retrieves and converts the object containing the medical data into the specified destination file format, and sends the destination file to the second user. The source and destination file formats may be the same or different. In one embodiment, users may access and communicate with the HIE system via the Internet.

Abstract: Passive detector structures for imaging systems are provided which implement unpowered, passive front-end detector structures with direct-to-digital measurement data output for detecting incident photonic radiation in various portions (e.g., thermal (IR), near IR, UV and visible light) of the electromagnetic spectrum.

Abstract: Spherical detector array devices are provided, which are implemented using passive detector structures for thermal imaging applications. Passive detector structures are configured with unpowered, passive front-end detector structures with direct-to-digital measurement data output for detecting incident photonic radiation in the thermal IR portion of the electromagnetic spectrum.

Abstract: Infrared imaging devices are provided which are configured to implement side-scan infrared imaging for, e.g., medical applications. For example, an imaging device includes a ring-shaped detector element comprising a circular array of infrared detectors configured to detect thermal infrared radiation, and a focusing element configured to focus incident infrared radiation towards the circular array of infrared detectors. The imaging device can be an ingestible imaging device (e.g., swallowable camera) or the imaging device can be implemented as part of an endoscope device, for example.

Abstract: Multi-spectrum imaging systems and methods are provided for imaging in multiple spectrums, e.g., thermal IR (infrared) at wavelengths of 4 microns and 11 microns, near-IR, and visible light, all on a same optical centerline. For example, an imaging system includes a first imager and a second imager. The first imager includes an array of thermal IR detectors, wherein the first imager is configured to receive incident photonic radiation and generate a thermal IR image, wherein each thermal IR detector comprises a photon absorber member that is configured to absorb thermal IR photonic radiation from the incident photonic radiation, and reflect remaining photonic radiation in the incident photonic radiation along an optical path of the imaging system. The second imager is disposed in said optical path of the imaging system, wherein the second imager is configured to receive the remaining photonic radiation reflected from the first imager and generate a second image.

Abstract: Infrared imaging devices are provided which are configured to implement side-scan infrared imaging for, e.g., medical applications. For example, an imaging device includes a ring-shaped detector element comprising a circular array of infrared detectors configured to detect thermal infrared radiation, and a focusing element configured to focus incident infrared radiation towards the circular array of infrared detectors. The imaging device can be an ingestible imaging device (e.g., swallowable camera) or the imaging device can be implemented as part of an endoscope device, for example.

Abstract: Passive detector structures for imaging systems are provided which implement unpowered, passive front-end detector structures with direct-to-digital measurement data output for detecting incident photonic radiation in various portions (e.g., thermal (IR), near IR, UV and visible light) of the electromagnetic spectrum.

Abstract: Multi-spectrum imaging systems and methods are provided to imaging in multiple spectrums, e.g., thermal IR (infrared) at wavelengths of 4 microns and 11 microns, near-IR, and visible light, all on a same optical centerline. For example, an imaging system includes a first imager and a second imager. The first imager includes an array of thermal IR detectors, wherein the first imager is configured to receive incident photonic radiation and generate a thermal IR image, wherein each thermal IR detector comprises a photon absorber member that is configured to absorb thermal IR photonic radiation from the incident photonic radiation, and reflect remaining photonic radiation in the incident photonic radiation along an optical path of the imaging system. The second imager is disposed in said optical path of the imaging system, wherein the second imager is configured to receive the remaining photonic radiation reflected from the first imager and generate a second image.

Abstract: Spherical detector array devices are provided, which are implemented using passive detector structures for thermal imaging applications. Passive detector structures are configured with unpowered, passive front-end detector structures with direct-to-digital measurement data output for detecting incident photonic radiation in the thermal IR portion of the electromagnetic spectrum.

Abstract: Passive detector structures for imaging systems are provided which implement unpowered, passive front-end detector structures with direct-to-digital measurement data output for detecting incident photonic radiation in various portions (e.g., thermal (IR), near IR, UV and visible light) of the electromagnetic spectrum.

Abstract: Spherical detector array devices are provided, which are implemented using passive detector structures for thermal imaging applications. Passive detector structures are configured with unpowered, passive front-end detector structures with direct-to-digital measurement data output for detecting incident photonic radiation in the thermal IR portion of the electromagnetic spectrum.

Abstract: Multi-spectrum imaging systems and methods are provided to imaging in multiple spectrums, e.g., thermal IR (infrared) at 4 ?m and 10 ?m wavelengths, near-IR, and visible light, all on a same optical centerline. For example, an imaging system includes a first imager and a second imager. The first imager includes an array of thermal IR detectors, wherein the first imager is configured to receive incident photonic radiation and generate a thermal IR image, wherein each thermal IR detector comprises a photon absorber member that is configured to absorb thermal IR photonic radiation from the incident photonic radiation, and reflect remaining photonic radiation in the incident photonic radiation along an optical path of the imaging system. The second imager is disposed in said optical path of the imaging system, wherein the second imager is configured to receive the remaining photonic radiation reflected from the first imager and generate a second image.

Abstract: Wide spectrum optical systems and devices are provided for use in multispectral imaging systems and applications, and in particular, wide spectrum optical assemblies are provided which are implemented using low cost, first surface mirrors in an optical framework that enables real-time viewing of an image in multiple spectral bands simultaneously over the same optical centerline with one main optical element.