Affiliation:
1. Rocket Force Engineering University
Abstract
Abstract
The target polarization characteristics reflect the important information about the medium material, surface texture, and structural characteristics of the target itself. In this paper, 9 kinds of samples with different materials, roughness, and surface texture direction are selected to measure the polarization characteristics in an outdoor environment, and the influencing factors of the target polarization characteristics are analyzed, where the influence of the surface texture direction on the spatial distribution of the target polarization characteristics is emphatically analyzed. The results show that the target polarization characteristics are affected by many factors such as material, roughness, surface texture direction, and detection position, and the greater the angle between the surface texture direction and the principal plane, the more concentrated the target polarization characteristics are in and around the principal plane, which could provide a theoretical basis for comprehensively mastering the target polarization characteristics, improving the ability of target polarization detection and recognition, and enhancing the confidence of the target polarization modeling and simulation.
Publisher
Research Square Platform LLC
Reference24 articles.
1. Material classification of an unknown object using turbulence-degraded polarimetric imagery;Hyde MW;IEEE Trans. Geosci. Remote Sens.,2011
2. Merit functions and measurement schemes for single parameter depolarization models;Li L;Opt. Express,2021
3. Polarized remote sensing: a note on the stokes parameters measurements from natural and man-made targets using a spectrometer;Sun Z;IEEE Geosci. Remote Sens.,2017
4. D. A. Lavigne, M. Breton, G. Fournier, J. F. Charette, M. Pichette, V. Rivet, and A. P. Bernier. Target discrimination of man-made objects using passive polarimetric signatures acquired in the visible and infrared spectral bands. in SPIE 2011: Polarization Science and Remote Sensing V (2011). pp. 62–70.
5. B. M Ratliff, D. A. LeMaster, R. T. Mack, P. V. Villeneuve, J. J. Weinheimer, and J. R. Middendorf, Detection and tracking of RC model aircraft in LWIR microgrid polarimeter data. in SPIE 2011: Polarization Science and Remote Sensing V (2011). pp. 29–41.