Patent application number | Description | Published |
20090174864 | SYSTEM AND METHOD FOR TRACKING EYE MOVEMENT - A system for tracking eye movement is disclosed. A first light source, emitting light including a first wavelength, is adapted to illuminate corneal tissue of an eye. The first wavelength is selected such that it is strongly absorbed by corneal tissue. A position sensitive detector is adapted to detect a reflection of light at the first wavelength off the corneal tissue. Signal may be generated in response to the detected reflection which are representative of the position of the reflection, and therefore the position of the corneal tissue, with respect to the position sensitive detector. | 07-09-2009 |
20100002242 | INTERFEROMETRIC TRACKING DEVICE - An interferometric tracking device is disclosed. A first grating is optically coupled to a second grading such that the second grating is rotationally offset from the first grating. Imaging optics are adapted to image light passing through the first and second gratings onto a focal plane array. A plurality of wedge plates are optically disposed between the imaging optics and the second grating, such that the wedge plates generate a plurality of spots on the FPA when light from a point source is incident upon the first grating. | 01-07-2010 |
20100202070 | DEFORMABLE MIRROR - A deformable mirror includes a plurality of block segments and at least one actuator. The block segments are arranged in an array, with adjacent block segments being coupled together by an elastomer and the top surface of the array being reflective. The at least one actuator is coupled to at least one of the block segments at the bottom surface of the array and is adapted to adjust in piston. | 08-12-2010 |
20110103410 | LASER BEAM CONTROL SYSTEM AND METHOD - A laser beam control system includes an output aperture through which a laser beam is directed toward a target. A laser beam return is also received through the output aperture, with the laser beam return including scatter from the laser beam. A deformable mirror is adapted to control the outgoing laser beam, and a sensor is adapted to detect the wavefront of the laser beam return. An optics controller is operationally coupled to the deformable mirror and is adapted to adjust the deformable mirror in response to the wavefront of the laser beam return. | 05-05-2011 |
20110176565 | MULTI-BEAM LASER CONTROL SYSTEM AND METHOD - A multi-beam laser beam control system includes a laser transmitter configured to emit light in a plurality of beamlets. A sensor is configured to receive light from the beamlets. A processor is communicably coupled to the sensor and configured to compute a relative phase of a wavefront of at least one beamlet based on output from the sensor. A controller is communicably coupled to the processor and to the laser transmitter. The controller is configured to adjust a phase of at least one of the beamlets. | 07-21-2011 |
20120013988 | HEAD MOUNTED DISPLAY HAVING A PANORAMIC FIELD OF VIEW - A head mounted display (HMD) capable of a panoramic field of view. a concave image source is optically coupled in series to a first hemispherical lens, a second hemispherical lens, and a spherical mirror. Each of the concave image source, the first and second hemispherical mirrors, and the spherical mirror are optically concentric. | 01-19-2012 |
20120162631 | ACTIVE IMAGING SYSTEM AND METHOD - An active imaging system includes a laser transmitter configured to emit light in a plurality of beamlets. A sensor is configured to receive light from the beamlets. A processor is communicably coupled to the sensor and configured to compute images of objects illuminated by the beamlets. | 06-28-2012 |
20120255540 | SUN TRACKING SOLAR CONCENTRATOR - A sun tracking solar concentrator includes a one or two-sided linear Fresnel lens imprinted on a rollable sheet that is curved to form as a cylindrical arc surface. A one sided lens has a first zero line or a center point that transmits sunlight through without any refraction. A two sided lens also has a second zero line that is perpendicular to the first zero line. The Fresnel lens may be spooled onto rollers at its two straight ends. The first zero line or the center point may be positioned along the cylindrical arc by rotating one or both of the rollers. This mechanism aimed at providing horizontal tracking of the sun as it moves from East to West. Vertical tracking is accomplished by a tiltable mount coupled to the two rollers. | 10-11-2012 |
20120292481 | MULTI-BEAM LASER BEAM CONTROL AND IMAGING SYSTEM AND METHOD - A multi-beam laser beam control and imaging system includes a laser transmitter configured to emit light in a plurality of beamlets towards a target. At least one of the beamlets illuminates the whole target or a substantial portion of the target when imaging the target. A sensor is configured to receive light from the beamlets. A processor is communicably coupled to the sensor and configured to compute a relative phase of a wavefront of at least one beamlet based on output from the sensor. The processor also reconstructs a wavefront which is used to formulate two or three dimensional images of the target. A controller is communicably coupled to the processor and to the laser transmitter. The controller is configured to adjust a phase of at least one of the beamlets. | 11-22-2012 |
20130099096 | FLASH DETECTION AND LASER RESPONSE SYSTEM - A flash detection and laser response system includes a flash sensor configured to capture a plurality of sensor images, an image analyzer configured to identify at least a first image including a first flash event and to compute from the first image a direction of the flash event relative to the flash sensor, a laser, and a steering mechanism coupled to the laser and configured to steer disabling light from the laser in the direction of the flash event. | 04-25-2013 |
20150069216 | LASER BEAM CONTROL SYSTEM WITH BIDIRECTIONAL BEAM DIRECTOR - A bidirectional beam director includes a pair of optically coupled diffraction gratings, each being independently rotatable so that a laser beam passing through the pair of gratings can be steered by rotation of at least one of the gratings. The bidirectional beam can be coupled to many types of optical systems, including optical phased arrays, multi-beam laser transmitters and receivers, telescopes, and high energy laser beam control systems. | 03-12-2015 |
20150071321 | HIGH ENERGY SEMICONDUCTOR LASER - A high energy semiconductor laser capable of high optical efficiency includes a master oscillator coupled to a plurality of slave oscillators, each producing a laser beam that is substantially at the same wavelength as the output beam from the master oscillator. The outputs of the slave oscillators are then coherently combined to a single monochromatic beam having an optical power which is substantially greater than that of beam output from the master oscillator. The slave oscillators can be configured as ring resonators. A suitable ring oscillator can be built by arranging one or more semiconductor diode laser gain media, two or more reflecting mirrors, and at least one semireflective mirror in a ring configuration. A suitable ring oscillator can also be built by machining a solid block to include one or more semiconductor diode laser high gain regions. | 03-12-2015 |