| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 342054000 | With laser | 23 |
| 20080238760 | Scanner - A laser radar device that operates on an elapsed time basis and has a pulsating laser for emitting successive light pulses into a monitored region. A light receiver receives light impulses reflected by an object in the monitored region and generates electrical signals responsive to the received light impulses. The signals are forwarded to an evaluation unit adapted to generate a distance signal indicative of a distance between the object and the laser radar device on the basis of the speed of light and an elapsed time between the emission of the light pulses and the receipt of the reflected light pulses. A light diverter located between the laser and the monitored region continuously varies the directionality of the light impulses directed into the monitored region and includes a beam splitter that divides the energy of the emitted light pulses into a main beam and a sensing beam. The beam splitter causes a constant angular offset between the main beam and the sensing beam in the direction in which the directionality of the light beams is varied. A further light receiver is provided for receiving light impulses from the sensing beam reflected by the object. | 10-02-2008 |
| 20080272955 | ACTIVE RADAR SYSTEM - An example radar system for a vehicle comprises a radar antenna, operable to produce a radar beam, and a lens assembly including at least one active lens, the radar beam passing through the lens assembly. The radar beam has a field of view that is adjustable using the active lens. In some examples, the active lens comprises a metamaterial, the metamaterial having an adjustable property such as an adjustable negative index, the field of view being adjustable using the adjustable property of the metamaterial. | 11-06-2008 |
| 20090051582 | MINIATURIZED MICROWAVE-PHOTONIC RECEIVER - A receiver, such as a miniaturized microwave-photonic coherent receiver (MMPR) is disclosed. The receiver includes an antenna to output an electrical RF signal received on a section of the antenna, a laser to produce an optical signal, a photonic modulator to receive the optical signal and the electrical RF signal and produce an EO-RF signal and to receive the optical signal and an electrical LO signal and produce an EO-LO signal, a signal combiner to provide a combined EO-RF and EO-LO signal and a photodiode to receive the combined signal and produce an IF signal. A method of detecting an object using the MMPR includes receiving an electrical RF signal corresponding to the object, outputting the electrical RF signal to a photonic modulator, modulating the electrical RF signal onto an optical carrier, demodulating the electrical RF signal to produce an IF signal and processing the IF signal. | 02-26-2009 |
| 20100013696 | SYSTEM AND METHOD OF ORBITAL ANGULAR MOMENTUM (OAM) DIVERSE SIGNAL PROCESSING USING CLASSICAL BEAMS - The present invention describes a system and method of OAM diverse signal processing using classical beams for applications in which OAM signal character is controlled such as optical tagging and applications in which OAM signal character is not controlled such as clutter mitigation and interference cancellation for target detection, identification etc. This is accomplished by transmitting a source beam having a prescribed state with one or more non-zero OAM components, reflecting the beam off a ‘tagged’ or ‘untagged’ target and receiving the return beam in the direct return path to measure the one or more OAM components to identify the target. OAM processing provides additional degrees of processing freedom to greatly enhance the processing capabilities to detect and identify both ‘tagged’ and ‘untagged’ targets. | 01-21-2010 |
| 20110221627 | SWITCHABLE DELAYS OPTICAL FIBRE TRANSPONDER WITH OPTICAL GENERATION OF DOPPLER SHIFT - The invention concerns a Optical modulator, comprising an input suitable to receive an optical carrier, a high-frequency input and an output suitable to transmit an optical signal, the optical modulator comprising two Mach-Zender ( | 09-15-2011 |
| 20110248880 | APPARATUS AND METHOD OF RECOGNIZING PRESENCE OF OBJECTS - An apparatus and method for recognizing presence of an object is provided, the apparatus and method are mounted on or implemented a vehicle. In the apparatus and method, by scanning a beam-shaped electromagnetic wave, data showing reflection intensities of reflected waves and distances between the vehicle and objects outside the vehicle are obtained. Based on the detected data, characteristics presented by frequency distributions of the distances and intensity frequency distributions of the refection intensities obtained in multiple rows in a field of view in the height direction of the vehicle. The characteristics depend on an angle of the electromagnetic wave to a road on which the vehicle travels. It is determined that the characteristics are obtained from the road when the characteristics meet predetermined requirements. | 10-13-2011 |
| 20110309967 | APPARATUS AND THE METHOD FOR DISTINGUISHING GROUND AND OBSTACLES FOR AUTONOMOUS MOBILE VEHICLE - Disclosed is apparatus for distinguishing between ground and an obstacle for autonomous mobile vehicle, comprising an upper 2D laser radar | 12-22-2011 |
| 20120001789 | DIGITAL REGISTRATION OF 3D LASER RADAR DATA BASED ON MANUALLY SELECTED FIDUCIALS - A system and method for registering 3D data sets is disclosed based on manual fiducial selection. The technique is useful in imaging obscured targets with 3-D imaging laser radars. For such an exemplary method, which defines a three-dimensional linear shift vector for each data voxel, four fiducials are required to completely define the mapping for a 3D space. An exemplary registration algorithm as disclosed provides an approach to automatically make fine adjustments to the 3D data registration. The tedious technique of shifting data sets relative to each other, in many degrees of freedom, is eliminated. Instead, a fine adjust is applied to the digital mapping function, through fiducial perturbation. | 01-05-2012 |
| 20120068880 | System and Method for Dual-Band Antenna Pointing, Acquisition, And Tracking - A system for tracking a target includes a dual-band antenna. The dual-band antenna includes a first antenna and a second antenna rigidly coupled to the first antenna. The first antenna is configured to communicate within a first frequency band and the second antenna is configured to communicate within a second frequency band. The system further includes a processing system having a first antenna control processor configured to initialize a pointing direction to point a beam of the first antenna toward the target with a first degree of pointing accuracy, and configured to scan with the first antenna to point the beam of the first antenna more precisely toward the target with a second degree of pointing accuracy, and further having a second antenna control processor configured to electronically scan with the second antenna to point a beam of the second antenna to the target with a third degree of pointing accuracy. | 03-22-2012 |
| 20120249357 | ANTENNA/OPTICS SYSTEM AND METHOD - A missile includes a radar system that has a radome through which a main antenna sends and receives signals. The radome includes a radome body and a radome tip include different transmissive materials, with for example the radome body primarily made of a lossy optically nontransparent material, and the radome tip primarily made of a lossless (permittivity with low imaginary part) glass material that may also be optically transparent. A laser may be used in conjunction with the radome to send and receive encoded signals. The laser may be located behind (aft of) the main antenna, and one or more optical fibers may extend into and/or along the radome to guide laser signals to the radome tip. The laser may be used to emit encoded signals so as to allow multiple radar systems operating in the same area at the same time to discriminate between different targets. | 10-04-2012 |
| 20120299764 | RADAR APPARATUS AND LIGHT SCAN APPARATUS - A radar apparatus for detecting a distance to an object by receiving an electromagnetic wave reflected by the object is disclosed. The radar apparatus comprises a scan part and an electromagnetic wave emitter. The scan part includes a polarized light separation member configured to pass a preset first component of the electromagnetic wave and reflect a preset second component of the electromagnetic wave. The first and second components, respectively, are polarized lights having first and second polarization directions, which are perpendicular to each other. The scan part scans the second component of the electromagnetic wave in a predetermine scan angle range by rotating the polarized light separation member around a predetermined rotation axis. The electromagnetic wave emitter emits the electromagnetic wave toward the polarized light separation member of the scan part. | 11-29-2012 |
| 20130099957 | Optical Assembly for Laser Radar - A compact optical assembly for a laser radar system is provided, that is configured to move as a unit with a laser radar system as the laser radar system is pointed at a target and eliminates the need for a large scanning (pointing) mirror that is moveable relative to other parts of the laser radar. The optical assembly comprises a light source, a lens, a scanning reflector and a fixed reflector that are oriented relative to each other such that: (i) a beam from the light source is reflected by the scanning reflector to the fixed reflector; (ii) reflected light from the fixed reflector is reflected again by the scanning reflector and directed along a line of sight through the lens; and (iii) the scanning reflector is moveable relative to the source, the lens and the fixed reflector, to adjust the focus of the beam along the line of sight. | 04-25-2013 |
| 20130154869 | DETERMINING THE LOCATION OF A LOAD FOR A TOWER CRANE - A tower crane load location determiner is disclosed. One example includes a load location measurer to provide load location measurement information for a load coupled with a tower crane. In addition, a load position determiner utilizes the load location measurement information to determine a location of the load. A user accessible load location provider provides the determined location of the load. | 06-20-2013 |
| 20130201052 | Object Detection System for Mobile Platforms - A method and apparatus comprising a group of passive sensor systems, an active sensor system, and a processor unit. The group of passive sensor systems is configured to generate first sensor information from light in an environment around the group of passive sensor systems. The active sensor system is configured to send signals, receive responses from the signals, and generate second sensor information from the responses. The processor unit is configured to control the active sensor system to send the signals in a direction toward an object using the first sensor information and generate information about the object using the second sensor information. | 08-08-2013 |
| 20130222174 | APPARATUS AND METHOD FOR PROVIDING OBSTACLE INFORMATION IN AUTONOMOUS MOBILE VEHICLE - An apparatus for providing obstacle information in an autonomous mobile vehicle and a method thereof, in which a target object is determined to be what obstacle by combining pieces of information received from a laser distance sensor and radars, thereby enabling the autonomous driving of a vehicle. The apparatus and method for providing obstacle information in an autonomous mobile vehicle, which is capable of providing robust obstacle information not only in environments normal times, but also dust environments by combining a laser distance sensor and radar data radars. A problem that an obstacle through which a mobile unit can pass, such as dust, is mistaken for an obstacle through which the mobile unit cannot pass can be solved. | 08-29-2013 |
| 20130241761 | BEAM STEERING FOR LASER RADAR AND OTHER USES - Optical systems suitable for use as or in laser radar systems and other uses include a beam-forming unit, a beam-scan unit, and a controller. The beam-forming unit includes a first optical element, and the beam-scan unit includes a second optical element. The first optical element is movable to shape and direct a substantially collimated optical beam along a nominal propagation axis to a target, and the second optical element includes at least one movable beam deflector that moves the optical beam in a scanning manner relative to the nominal propagation axis. The controller is coupled to the beam-forming unit and beam-scan unit, and is configured to induce movement of the first optical element required for shaping and directing the optical beam along the nominal propagation axis and to induce independent motion of the beam deflector of the second optical element as required to scan the optical beam relative to the nominal propagation axis. The beam deflector can be refractive or reflective. | 09-19-2013 |
| 20130241762 | LIGHT-BEAM SCANNING FOR LASER RADAR AND OTHER USES - A light beam is scanned, for use in laser radar and other uses, by an optical system of which an example includes a beam-shaping optical system that includes a first movable optical element and a second movable optical element. The first optical element forms and directs an optical beam along a nominal propagation axis from the beam-shaping optical system to a target, and the second optical element includes a respective actuator by which the second optical element is movable relative to the first optical element. A controller is coupled at least to the actuator of the second optical element and is configured to induce motion, by the actuator, of the second optical element to move the optical beam, as incident on the target, relative to the nominal propagation axis. | 09-19-2013 |
| 20130257641 | METHOD AND SYSTEM FOR DETECTING ANIMALS IN THREE DIMENSIONAL SPACE AND FOR INDUCING AN AVOIDANCE RESPONSE IN AN ANIMAL - The system and method of detection of low flying animals, such as birds, bats, and insects, and more particularly the detection of low flying animals using a radar system to detect the animals in three-dimensional airspace. The radar system produces narrowly focused radar pulses. The radar system comprises a single radar unit, an A/D proceeding apparatus, an A/D conversion apparatus, and a pan/tilt controlled base platform. The system and method further producing an avoidance response in an animal, and more particularly, producing an avoidance response by illuminating the animal with ultraviolet light. | 10-03-2013 |
| 20140152487 | METHOD AND APPARATUS FOR NONDESTRUCTIVE MEASURING OF A COATNG THICKNESS ON A CURVED SURFACE - An improved method and apparatus for non-destructive measurements of coating thicknesses on a curved surface by measuring components of the microwave energy reflected from the surface. Preferred embodiments of the present invention provide a portable microwave thickness detector with a rounded rocker-type base allowing the microwave beam to be moved through a range of angles with respect to the target surface. An optical alignment system determines when the microwave angle of incidence is at a desired angle when the components of the reflected microwave energy are measured. Preferred embodiments of the present invention also provide a portable microwave thickness detector which maintains a constant standoff distance between the between the microwave detector and the sample to be measured. | 06-05-2014 |
| 20140333468 | Methods and Systems for Detecting Weather Conditions Including Sunlight Using Vehicle Onboard Sensors - Methods and systems for detecting weather conditions including sunlight using onboard vehicle sensors are described. In one example, a method is provided that includes receiving laser data collected for an environment of a vehicle. The method also includes associating laser data points with one or more objects in the environment, and determining given laser data points that are unassociated with the one or more objects in the environment as being representative of an untracked object at a given position with respect to the vehicle. The method also includes determining that the untracked object remains at a substantially same relative position with respect to the vehicle as the vehicle moves, and identifying by the computing device an indication that a weather condition of the environment of the vehicle is sunny. | 11-13-2014 |
| 20150061917 | IMAGING SYSTEM AND METHOD - Imaging system comprising an illuminator configured to illuminate a target area using at least one illumination beam, the illumination beam having a substantially elongated cross-section for illuminating at least one respective elongated first section of the target area; a detector having at least one detector part, each with an elongated field of view, for detecting radiation emanating from a respective elongated second section of the target area; the illuminator and detector being arranged such that each elongated first section the target area traverses each elongated second section of the target area. | 03-05-2015 |
| 20160084954 | DETECTION OF A DISTRIBUTED RADAR TARGET BASED ON AN AUXILIARY SENSOR - A detection system to detect an object and a method of performing detection of an object are described. The system includes a radar system to transmit radiation and receive resulting reflections, the object being a distributed radar target reflecting multi-point reflections. The system also includes an auxiliary sensor to estimate one or more parameters of the object, and a processor to estimate a probability density function based on estimates of the one or more parameters of the object and the multi-point reflections and to detect the object based on the probability density function. | 03-24-2016 |
| 20160187465 | SYSTEM AND METHOD FOR CORRECTING VEHICHLE TRACING-POSITION OF RADAR SENSOR USING LASER SCANNER - Provided are a system and a method for correcting a tracing-position of another vehicle sensed by a radar sensor using a laser scanner, which compare an unspecific tracing position of the radar sensor sensing another vehicle and a contour point acquired by a laser scanner and correct the tracing position of the radar sensor with a position most approximate to the vehicle in the contour point. Therefore, the radar sensor sensing an object in the vicinity of the vehicle recognizes a tracing position of another vehicle to facilitate design of a radar sensor based system. | 06-30-2016 |
