Patent ID: 9041597
Filing Date: 2015-05-26
Classification: G01S

Abstract:
1. A method for filtering clutter caused by waterbodies, by way of scan-to-scan correlation of radar information, utilizing a radar covering a radar area in subsequent scans of duration T scan wherein the radar transmits a signal and listens to return echoes during a sweep time interval, the radar comprising i) a coherent transmitter and receiver with a coherent oscillator providing a phase reference, ii) a signal processor, and iii) a radar extractor that on the basis of detected echoes produced either by objects close to a waterbody surface or by the waterbody surface itself, extracts plots characterized by range and azimuth, the method separating plots relating to objects from the plots relating to waterbody by performing the following steps: A estimating a radial speed of the plots, and B scan-to-scan correlating the plots; wherein step A comprises i) quantization of the radar area into a plurality of elementary radar cells having dimensions comparable to a range radar resolution, and ii) execution of the following sub-steps: A1 extracting from the radar signal provided by the coherent receiver a phase of all echoes within a single sweep, A2 for each radar cell, calculating phase differences Δφ between any two subsequent sweeps within a predefined coherent processing interval comprising a multiplicity of subsequent sweeps; A3 for the radar cells wherein the radar extractor has extracted a plot, calculating instantaneous absolute radial speeds ν and radial direction of the echoes, starting from the phase differences of sub-step A2, as ν=(λ/4πT)·Δφ, wherein the radial direction of the echoes is positive in case of moving away of an object that has caused the echo from the radar and negative in the case of approaching to the radar, A is a radar operation wavelength, T is a time interval between two subsequent steps; A4 averaging the values of the absolute radial speeds and directions of the echoes obtained in sub-step A3, obtaining the radial speeds and radial directions of the corresponding extracted plots; wherein step B comprises the following sub-steps executed by the radar extractor for each extracted plot, using a memory area: B1 storing the plot with range R and azimuth A in said memory area at each radar scan; B2 defining a range-azimuth area, having: B3 correlating by position the plot of the current radar scan with all plots stored in said memory area during a previous scan, in order to verify whether at least one of the stored plots falls within said range-azimuth area; B4 if the correlation value obtained in step B3 is below a pre-defined threshold, so that the whole plot falls outside said range-azimuth area, eliminating the plot from said memory area; wherein the remaining plots in said memory area are being put at disposal of the radar for a further analysis and visualization on a radar display.