Method for calibrating phase center of receiver antenna and apparatus thereof
A phase center and receiver technology, applied in the field of communication, can solve problems such as inability to obtain absolute positioning, and achieve the effect of correcting measurement errors
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Embodiment 1
[0024] Calibrating the variation of the phase center of the receiver antenna includes two parts: the calibration and calibration of the PCO relative to the antenna reference point ARP (the center of rotation of the turntable), and the calibration and calibration of the PCV relative to the PCO.
[0025] The processing flow of a method for calibrating the variation of the phase center of the receiver antenna provided by this embodiment is as follows: figure 1 As shown, including the following processing procedures:
[0026] Step 11, measure and obtain the Excel table data of the far-field phase pattern of the receiver antenna, and convert it into a data 1.txt input test data file.
[0027] The far-field phase pattern data of the receiver antenna is measured by using the far-field test method or the near-field test method. - Calculated by far-field transformation software. Using the far-field phase pattern data as input test data for the method;
[0028] The above far-field ph...
Embodiment 2
[0080] The difference between this embodiment and the first embodiment is that the processing procedure of step 14 in the first embodiment is modified, and other processing steps are the same as those in the first embodiment.
[0081] The modification to the processing procedure of step 14 in the first embodiment is as follows: after using the least squares method to derive the numerical calculation model of the PCO and PCV of the antenna, use the regression analysis method of polynomial fitting to analyze the numerical values of the PCO and PCV The calculation model is numerically solved, and the values of PCO and PCV of the antenna can also be obtained.
[0082] The process of using polynomial fitting to achieve least squares fitting is as follows: Take a linear fitting as an example; assume:
[0083] x 1 = sinθ i cosφ j ; x 2 = sinθ i sinφ j ; x 3 =cosθ i ;
[0084] i=1, 2,...n, j=1...m
[0085] where x 1 , x 2 , x 3 is the input variable and y is the out...
Embodiment 3
[0106] The embodiment of the present invention also provides a device for calibrating the variation of the phase center of the receiver antenna, the specific structure of which is as follows image 3 As shown, the following modules are included:
[0107] The input test data acquisition module 31 is used to measure and obtain the far-field phase pattern data of the receiver antenna, and use the far-field phase pattern data as input test data;
[0108] Mathematical model building module 32, for utilizing described input test data to set up the mathematical model of the average phase center PCO of described receiver antenna, antenna phase center dispersion degree PCV;
[0109] The mathematical model solving module 33 is used to derive the numerical calculation model of the PCO and PCV of the antenna by the least square method, and perform numerical calculation on the numerical calculation model of the PCO and PCV by using the linear equation solution or the regression analysis me...
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