Patent application number | Description | Published |
20090033911 | Laser Anemometry with Improved Eye Safety - The invention relates to an optical measurement device intended for determining a relative velocity vector {right arrow over (v)} of a carrier, such as an aircraft, with respect to a reference medium MILREF. The device includes an optical signal system EMIREC, delivering an optical signal Sinc that follows a direction called the line of sight LDV and is concentrated in a focusing zone ZOF, and means for displacing the focusing zone ZOF in the reference medium MILREF. According to the invention, the means for displacing the focusing zone ZOF act on the orientation of the line of sight LDV, subjecting it to a known movement, with a nonzero speed, a processing unit UTR determines the vector {right arrow over (v)} in at least one “search” phase based on an identification with an expected waveform of the variation in frequency of an electrical signal as a function of the orientation of the line of sight LDV in order to determine an approximate value of {right arrow over (v)}, followed by a “tracking” phase based on an iterative validation of values of {right arrow over (v)} close to the approximate value of {right arrow over (v)}. | 02-05-2009 |
20110141470 | Servo-Controlled Bistatic Anemometric Probe - Bistatic anemometric optical probes include an emitting first optical head that illuminates a measurement region and a receiving second optical head. The probe includes: optomechanical movement means for moving one of the optical axes of the optical heads in at least one direction called the measurement direction, the optical axis moved being the movable optical axis; measuring means arranged so as to distribute the intensity of the beam backscattered from the measurement region in at least two directions located on either side of the measurement direction and denoted servo-control directions; and a servo-control device connected to the measuring means and to the optomechanical means of moving, said servo-control device including functions making it possible, on the one hand, to determine, from knowledge of the intensity of the backscattered beam in the two servo-control directions, the offset between the measurement direction of the movable optical axis and a direction, called the optimal direction, making it possible to maximize the intensity of the backscattered beam and, on the other hand, to servo-control the direction of said movable optical axis to the optimal direction. | 06-16-2011 |
20110181863 | Single-Particle LIDAR Anemometry Method and System - The present invention concerns a single-particle LIDAR anemometry method and system comprising the continuous emission of one or more light beams through a gas containing particles, said beam being focused onto a measurement volume, a step of detecting a signal backscattered by particles passing through said volume, the method being characterized in that it comprises at least the following phases:
| 07-28-2011 |
20130142214 | LASER ANEMOMETRY PROBE SYSTEM AND METHOD EMPLOYING CONTINUOUS COHERENT DETECTION, WITH SINGLE-PARTICLE MODE, CAPABLE OF DETECTING ICE-FORMING CONDITIONS AND OF DETERMINING THE SEVERITY OF ICING - The laser anemometry probe (LAP) system with continuous coherent detection, with single-particle mode, comprises means (AN) for analysing the measurement signals of the said probe (LAP) and means (MES_T) for measuring the temperature (T). | 06-06-2013 |
20140247441 | METHOD FOR ESTIMATING THE TRANSVERSE COMPONENT OF THE VELOCITY OF THE AIR IN A DOPPLER LIDAR MEASUREMENT - A method for estimating the transverse component V | 09-04-2014 |