AOptix Technologies, Inc. Patent applications |
Patent application number | Title | Published |
20150301321 | Modified Schmidt-Cassegrain Telescope For Use In A Free-Space Optical Communications System - A Cassegrain telescope uses a pivoted corrector plate to reduce back-reflections. A converging lens is added to the optical path inside a housing of the telescope to focus the light within the telescope. The modified Cassegrain design may be used a hybrid radio frequency and free-space optical commercial communications network. | 10-22-2015 |
20150295644 | Aligning Transceiver Systems of a Data Transmission Network - Methods and systems are described for determining and providing instructions for manual adjustment of a tilt angle of a radio frequency/free space optical transceiver system. Specifically, these instructions are provided for adjusting a tilt angle of a transceiver system using a tilt adjustment so that the transceiver system is approximately at a center of a range of motion of a gimbal assembly. A user interface in communication with a computing system of the local transceiver system provides instructions so that the above-described adjustments are implemented accurately and precisely. This tilt adjustment improves the reliability of the communication network because the gimbal assembly is able adjust the position of the transceiver system during relative movement between the transceivers system, thus maintaining the link despite the relative movement. | 10-15-2015 |
20140307835 | CARRIER FREQUENCY AND PHASE RECOVERY IN QUADRATURE ENCODED E-BAND COMMUNICATIONS - A mechanism for retrieval of carrier frequency and carrier phase in a received modulated carrier waveform. Retrieval of carrier frequency and carrier phase can be implemented in an analog electrical circuit, using a field programmable gate array (FPGA), or in computer code. Independent of the implementation, the mechanism performs frequency and primary phase recovery by forcing transforms of a pilot tone in the upper and lower sidebands to the same frequency using a feedback loop. The difference-in-magnitudes of the channelized pilot are used by a phase lock loop to perform secondary phase recovery in a manner that also resolves phase sign ambiguity. Benefits of this mechanism include improved phase lock loop tracking performance and a reduction of noise in the data demodulated from the received carrier waveform. | 10-16-2014 |
20140248049 | RAPID IN-THE-FIELD AUTO-ALIGNMENT FOR RADIO FREQUENCY AND FREE-SPACE OPTICAL DATA COMMUNICATION TRANSCEIVERS - A local communications apparatus is aligned with a remote apparatus, each apparatus comprising radio frequency (RF) and free space optical (FSO) transceivers with substantially parallel boresight. Coarse alignment is performed using the RF transceiver and fine alignment is performed using the FSO transceiver. A patterned search is performed to locate the RF signal from the remote apparatus and known features of the intensity profile are utilized to locate the global maximum, thus coarsely aligning the pair of apparatuses. A second patterned search is performed to locate the FSO signal from the remote apparatus and an iterative step-search is used to align the FSO signal centroid with the FSO transceiver, thus finely aligning the pair of apparatuses. | 09-04-2014 |
20140241711 | Low Latency Data Transmission Network - A communications networking having reduced transmission latency and improved reliability is described. To reduce signal transmission latency, network management data is removed from a data stream to prioritize the transmission of payload data at higher transmission rates. Management data is returned to the data stream in such a way that it minimizes an impact to payload transmission rates. To improve communications network reliability, the network is configured to form a primary communication path and a redundant communication path. Upon failure of a transceiver at one node, the network engages redundant transceivers on a per-node basis thereby using a segment of the redundant communication path. The data stream is returned to the primary communication path upon circumvention of the failed transceiver. | 08-28-2014 |
20140132749 | FOCUSING METHOD FOR OPTICALLY CAPTURING AN IRIS IMAGE - Methods and systems describe calculating an estimated focal point for a feature of interest within an ocular area of a subject using acquired test images and focal points. A curve is approximately fit to the defocus measurements located at different focal points. A maximum of the curve is identified that corresponds to an estimated focal point of the subject's iris. An image capture device can then record an approximately focused image of the iris using the estimated focal point. This reduces the time and computing resources needed to capture an image iris that is in focus where the subject may be located at a variable, unknown standoff distance. These methods and systems can be used for biometric identification using iris imaging, among other applications where quickly focusing an imaging system is advantageous. | 05-15-2014 |
20140068357 | Assessment and Correction of Transmitted Data - Methods and systems for improving the quality of transmitted data are described. Multiple distinct communication channels are used to transmit segments representing the same pre-transmission block of a data packet. Upon receipt of these segments, a system identifies differences between the segments for those segments that meet a quality threshold. The system selects one of segments for subsequent transmission or re-assembly into a data packet based on the prior performance of the communication channels used to transmit the segments. | 03-06-2014 |
20130336546 | BIOMETRIC ENCLOSURE FOR A MOBILE DEVICE - An enclosure works in conjunction with a mobile device to capture biometric identifiers. The mobile device has a screen on a first side and a camera on a second side opposite the first side. The enclosure at least partially covers the mobile device on the first and second sides. The enclosure includes a fingerprint subsystem configured to capture fingerprints with sufficient resolution for biometric identification. The fingerprint subsystem is located on a portion of the enclosure covering the second side of the mobile device. The enclosure includes an iris imaging subsystem configured to capture iris images with sufficient resolution for biometric identification. The iris imaging subsystem includes an iris imaging aperture facing outward from the portion of the enclosure covering the second side of the mobile device. The enclosure includes an electronic data interface configured to communicatively couple the fingerprint and iris imaging subsystems to the mobile device. | 12-19-2013 |
20130336545 | USER INTERFACE FOR COMBINED BIOMETRIC MOBILE DEVICE - A mobile device is able to capture a plurality of different biometric identifiers of a subject. The mobile device displays a user interface on a screen of the device to guide the user in the capture of valid biometric identifiers. The user interface includes several different displays configured to guide users through the capture process to improve the chance that the user will capture valid biometric identifiers. The user interface includes displays for iris image capture, face image capture, voice capture, and fingerprint capture. The displays streamline the capture process, decreasing the overall knowledge and time required of the user to capture valid biometric identifiers. This also decreases the risk to the user in hostile environments. The device also processes the captured biometric identifiers to determine if they are valid, and updates the display of the user interface accordingly. | 12-19-2013 |
20130250085 | Compact Iris Imaging System - An iris imaging and illumination system is used to resolve and record the fine musculature features of an iris. The system can improve the quality of an iris image and facilitate the image capturing process by focusing illumination on an ocular area of a subject. By limiting illumination of other parts of a face, reflections from the face are reduced. The system has a compact physical arrangement by placing the illumination sources proximate to one another and splaying them in order to focus illumination on the ocular areas of a subject. | 09-26-2013 |
20130089240 | HANDHELD IRIS IMAGER - A portable, hand held iris imaging system captures iris images that may be used in biometric identification. The system is constructed using two separate but coupled subsystems. A first subsystem augments the underlying functionality of the second subsystem. The first subsystem uses an iris camera to capture iris images. A tunable optical element positioned between the subject and the iris camera focuses light reflected from the subject's eye onto the iris camera. A controller coordinates the capture of the iris image with the second subsystem. The second subsystem captures face images of the subject, which are provided to a display through a computer. The user interface is overlaid over the face images to provide visual feedback regarding how the system can be properly repositioned to capture iris images. The system has a portable form factor so that it may be easily operated. | 04-11-2013 |
20130088583 | Handheld Iris Imager - A portable, hand held iris imaging system captures iris images that may be used in biometric identification. The system includes an illumination source for illuminating a subject's eye and a camera to capture light reflected from the subject's eye. An optical element positioned between the illumination source and the camera focuses light reflected from the subject's eye onto the camera. A controller receives the captured image and provides it to a display. If the system is not correctly positioned for iris image capture, the display may also provide visual feedback regarding how the system can be properly repositioned. The system includes a housing with a portable form factor so that it may be easily operated. | 04-11-2013 |
20120308235 | Integrated Commercial Communications Network Using Radio Frequency and Free Space Optical Data Communication - A stabilized ultra-high bandwidth capacity transceiver system that combines an E-band (71-76 GHz, 81-86 GHz) millimeter wave RF transceiver with an eye-safe adaptive optics Free Space Optical (FSO) transceiver as a combined apparatus for simultaneous point-to-point commercial communications. The apparatus has a high degree of assured carrier availability under stressing environmental conditions. The apparatus establishes and maintains pointing and stabilization of mmW RF and FSO optical beams between adjacent line of sight apparatuses. The apparatus can rapidly acquire and reacquire the FSO optical carrier link in the event the optical carrier link is impaired due to adverse weather. | 12-06-2012 |
20090046249 | IRIS IMAGING USING REFLECTION FROM THE EYE - A rapid iris acquisition, tracking, and imaging system can be used at longer standoff distances and over larger capture volumes, without the active cooperation of subjects. The captured iris images can be used for biometric identification. Light illuminates the subjects' eyes. Reflections from the eyes are used to steer a high resolution camera to the eyes in order to capture images of the irises. | 02-19-2009 |