Class / Patent application number | Description | Number of patent applications / Date published |
356500030 | Having one or more return pulse gates or windows | 19 |
20080297762 | SYSTEM AND METHOD FOR DETERMINING CROSSWINDS - A system and method for measuring crosswinds includes using a laser to send a signal on a signal path, and receiving response signals backscattered off of aerosols or other materials in the atmosphere along the signal path. Wavefronts of the received responses are perturbated by thermal cell turbulence in the atmosphere that perturbs optical wavefront propagation. Signals backscattered by airborne aerosols at different distances from the laser in the wavefront imager arrive at different times at the wavefront imager. Thus the wavefront perturbations vary with range, and data on the perturbed wavefront may be collected by the wavefront imager. Crosswinds cause movements in the optical perturbations over time, as the thermal cell turbulence moves. By comparing wavefronts of signals sent at different times an amount of thermal cell displacement may be determined at a series of ranges away from the laser and the wavefront imager. | 12-04-2008 |
20090091738 | Surface profile measurement - An imaging system has a transmission system ( | 04-09-2009 |
20090135405 | Device and Method for Recording Distance-Measuring Images - A recording device for distance images becomes multi-target-enabled by means of the arrival of light pulses reflected at object regions at different distances being temporally resolved. This is done using extrema of the gradient of a correlation function between the received light pulses and a time window during which sensor elements of a camera are activated. | 05-28-2009 |
20100066995 | DEVICE AND METHOD FOR THE DETERMINATION OF DISTANCE BY MEANS OF LIGHT PULSES | 03-18-2010 |
20110194099 | DISTANCE MEASURING SYSTEM AND DISTANCE MEASURING METHOD - A distance measuring system and a distance measuring method which use a time-of-flight (TOF) method. The distance measuring system obtains a reference light quantity of reflected light which is a cumulative light quantity of the reflected light during a reference period, obtains a measured light quantity of the reflected light which is a cumulative light quantity of the reflected light during a measurement period, and calculates, on the basis of a ratio of the measured light quantity of the reflected light to the reference light quantity of the reflected light and a ratio of the reflected light incident period to the reference period, a reflected light incident period that is a period which is included in the measurement period and during which the reflected light is incident upon photoelectric conversion elements of a light-receiving device. Then, the distance measuring system calculates the distance between the distance measuring system and an object on the basis of the reflected light incident period. | 08-11-2011 |
20120200842 | PHOTOELECTRIC CONVERSION ELEMENT, LIGHT RECEIVING DEVICE, LIGHT RECEIVING SYSTEM, AND DISTANCE MEASURING DEVICE - A first photoelectric conversion element, which detects light and converts the light into photoelectrons has: one MOS diode having an electrode formed on a semiconductor base body with an insulator therebetween; and a plurality of embedded photodiodes formed in the semiconductor base body. The electrode of the MOS diode has, when viewed from the upper surface, a comb-like shape wherein a plurality of branch portions are branched from one electrode portion. Each of the embedded photodiodes is disposed to nest between the branch portions of the electrode when viewed from the upper surface. | 08-09-2012 |
20120242975 | DEPTH SENSORS, DEPTH INFORMATION ERROR COMPENSATION METHODS THEREOF, AND SIGNAL PROCESSING SYSTEMS HAVING THE DEPTH SENSORS - According to at least one example embodiment, a depth information error compensation method includes outputting modulated light to a target object, detecting a plurality of first pixel signals at different detection time points in a first time interval, the first pixel signals representing light reflected from the target object during the first time interval, detecting a plurality of second pixel signals at different detection time points in a second time interval, the second pixel signals representing light reflected from the target object during the second time interval, comparing each of the plurality of first pixel signals with each of the plurality of second pixel signals and calculating depth information to the target object according to the comparing. | 09-27-2012 |
20120281200 | Device and Method for the Determination of Distance by Means of Light Pulses - Methods and devices for the determination of distance by means of light pulses are disclosed. A light source emits light pulses with specified frequency. A detector receives reflected light pulses. A controller controls the light source and detector by means of signals. At least two timers are connected to the controller and the detector. When a light pulse is emitted by the light source, the controller generates a start signal triggering a time measurement by each of the at least two timers, in order, and beginning again from the start. Upon receiving a reflected light pulse, the detector generates a stop signal which stops the time measurement by the timer of the at least two timers, to which at that instant a measuring window is assigned by the controller. The device can be designed as a fiber-optic scanner. | 11-08-2012 |
20130077084 | OBJECT CHARACTERISTIC MEASURING SYSTEM - An object characteristic measuring system, used to measure semiconductor thin film characteristics, is formed by a dual-optical comb absolute distance measuring device and a terahertz (THz) wave time-domain measuring device. The dual-optical comb absolute distance measuring device is formed by two laser modules, for determining a first characteristic of an object to be measured through laser pulses emitted by the two laser modules. The THz wave time-domain measuring device is used to emit a THz wave, so as to measure a second characteristic of the object to be measured. | 03-28-2013 |
20140320845 | OPTICAL MEASURING DEVICE AND A METHOD FOR PRODUCING A COVER DISC FOR A HOUSING OF AN OPTICAL MEASURING DEVICE - The invention relates to an optical measuring device ( | 10-30-2014 |
20150077734 | BIPHOTON RANGING WITH HOM INTERFERENCE - A method for range finding of a target including: generating a first photon and a second photon identical to the first photon; transmitting the first photon towards the target and delaying the second photon by a time delay; receiving the first photon reflected from the target and the delayed second photon; interacting the reflected first photon and the delayed second photon to produce HOM interference; detecting photo-statistics at an output of the HOM interference; when the two photons are output at the same output port, repeating the above processes; when the reflected first single photon and the delayed second single photon are output at different output ports, changing the time delay and repeating the above processes; repeating the above processes for a number of times to arrive at a final estimate for a value of the time delay corresponding to the final estimate of the target range. | 03-19-2015 |
20150301162 | DISTANCE MEASURING METHOD AND EQUIPMENT USING OPTICAL SIGNAL - The present invention relates to distance measuring method and equipment which consists of a stage that receives multiple signals reflected from the target of measuring through the operation of the shutter, a stage that calculates the phase difference between transmitting and receiving signals based on said multiple signals received at said different phases, and a stage that calculates the distance between said target of measurement and a distance measuring equipment based on said phase difference, and said multiple signals may be of same frequency and amplitude. Therefore, the phase difference between transmitting and receiving signals can be determined accurately and the distance to the objects can be accurately recognized. | 10-22-2015 |
20150301177 | DISTANCE MEASURING METHOD AND DISTANCE MEASURING SYSTEM - In a TOF distance measurement employing light, the accuracy of distance measurement is improved without a significant increase in cost. A light source emits light to an object during an emission period. A sensor converts received reflected light (delay time τ) into an electrical signal during a plurality of signal accumulation periods, and accommodates the electrical signal. The signal accumulation period is set so that an accumulated signal amount varies depending on a distance to the object. The emission intensity of the light source is changed during the emission period so that the accumulated signal amount and the distance to the object has a nonlinear relationship. | 10-22-2015 |
20160047904 | METHOD FOR MEASURING A TIME OF FLIGHT - A method of measuring the phase of a response signal relative to a periodic excitation signal, comprises the steps of producing for each cycle of the response signal two transitions synchronized to a clock and framing a reference point of the cycle; swapping the two transitions to confront them in turns to the cycles of the response signal; measuring the offsets of the confronted transitions relative to the respective reference points of the cycles; performing a delta-sigma modulation of the swapping rate of the two transitions based on the successive offsets; and producing a phase measurement based on the duty cycle of the swapping rate. | 02-18-2016 |
20160047905 | DISTANCE MEASURING APPARATUS AND DISTANCE MEASURING METHOD - A distance measuring apparatus includes: a light-emitting element that emits first to third pulsed beams; sensors that detect reflected light that is each of the pulsed beams reflected off an object, convert the reflected light into electrical signals, and accumulate the electrical signals over a predetermined exposure time; and a computing unit that derives a distance to the object using first to third signal amounts output by the sensors as a result of detecting, over the predetermined exposure time from first to third points in time, and the computing unit derives the distance to the object based on a first derived amount that is an amount derived using the first and second signal amounts and a second derived amount that is an amount derived using the second and third signal amounts. | 02-18-2016 |
20160097841 | DISTANCE-MEASURING/IMAGING APPARATUS, DISTANCE MEASURING METHOD OF THE SAME, AND SOLID IMAGING ELEMENT - A distance-measuring/imaging apparatus having a high S/N and a high distance measurement accuracy is provided. The distance-measuring/imaging apparatus includes: a signal generation unit for generating an emission signal and exposure signal; a light source unit for performing light irradiation by receiving the emission signal; an imaging unit for performing exposure by receiving the exposure signal and for acquiring the exposure amount of the reflected light; and a calculation unit for calculating and outputting the distance information on the basis of the exposure amount. The imaging unit acquires a first exposure amount corresponding to the exposure in a first emission/exposure period, in which the exposure is performed by receiving the exposure signal simultaneously with a receiving timing of the emission signal. The imaging unit acquires a second exposure amount corresponding to the exposure in a second emission/exposure period, in which the exposure is performed by receiving the exposure signal after a lapse of a delay time from the receiving timing of the emission signal. The calculation unit calculates the distance information on the basis of the first exposure amount and second exposure amount that are acquired by changing the repeat count of the emission signal in the first emission/exposure period | 04-07-2016 |
356500040 | Including a displayed image | 3 |
20140085622 | THREE-DIMENSIONAL HYPERSPECTRAL IMAGING SYSTEMS AND METHODS USING A LIGHT DETECTION AND RANGING (LIDAR) FOCAL PLANE ARRAY - A system for three-dimensional hyperspectral imaging includes an illumination source configured to illuminate a target object; a dispersive element configured to spectrally separate light received from the target object into different colors; and a light detection and ranging focal plane array (FPA) configured to receive the light from the dispersive element, configured to acquire spatial information regarding the target object in one dimension in the plane of the FPA, configured to acquire spectral information in a second dimension in the plane of the FPA, wherein the second dimension is perpendicular to the first dimension, and configured to obtain information regarding the distance from the FPA to the target object by obtaining times of flight of at least two wavelengths, thereby imaging the target object in three dimensions and acquiring spectral information on at least one 3D point. | 03-27-2014 |
20150362588 | DISTANCE MEASURING APPARATUS AND METHOD FOR CALIBRATION - A distance measuring apparatus includes: a light-transmitting unit that transmits signal light from a light source toward a target object; a light-receiving unit that has a light-receiving element and receives the signal light from the target object on an optical axis different from that of the light-transmitting unit; a distance measuring unit that measures a distance to the target object based on propagation time from light transmission to light reception of the signal light; and a compensating unit that, while either optical path of an optical path from the light-transmitting unit to the light-receiving unit or an optical path from the target object to the light-receiving element is fixed, compensates an optical path of the signal light by displacing the other optical path at the light-transmitting unit or the light-receiving unit. | 12-17-2015 |
20170234976 | High Dynamic Range Imaging of Environment with a High Intensity Reflecting/Transmitting Source | 08-17-2017 |