Penghui Ji scite author profile

Penghui Ji

5Publications

3Citation Statements Received

95Citation Statements Given

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National University of Defense Technology

Publications

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Recognition and parameter estimation of spaceborne synthetic aperture radar pulse repetition interval modulation based on short time modified pulse repetition interval transform

Qiao

Dai

Zhang³

et al. 2022

IET Radar Sonar & Navi

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The traditional pulse repetition interval (PRI) transform method and modified PRI transform method have a low ability to recognise the complex PRI modulation type adopted in spaceborne synthetic aperture radar systems. To solve this problem, a short-time modified PRI transform (STMPT) method based on the traditional PRI transform method was proposed. The STMPT method converts the one-dimensional representation of PRI estimation results into a time-varying characteristic sensitive (TVCS) matrix of the PRI. Combined with the mathematical models of the four PRI modulation types including PRI fixed, staggered PRI, fast PRI change, and a more elaborated PRI sequence concatenating multiple fast PRI change sequences, the nonzero segment characteristics were obtained by incoherent accumulation and rearrangement of the TVCS matrix. Parameter estimation of the four PRI modulation types was also realised based on the geometrical and statistical characteristics. Finally, the effectiveness and performance of the algorithm were verified by simulation analysis.

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An Anti-Jamming Method Against SAR Stationary Deceptive Targets Based on DPCA Processing

Xing

2019

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Deceptive Targets Generation Simulation Against Multichannel SAR

Xing

Dai

et al. 2020

Electronics

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Traditional synthetic aperture radar (SAR) deceptive jamming can effectively generate deceptive scenes or false targets in SAR images. However, these false targets or scenes can be easily distinguished or eliminated by the multichannel SAR system. To interfere with the multichannel SAR, we first analyzed the results of SAR deceptive jamming generated by one transponder and two transponders against three-channel SAR- ground moving target indication (GMTI). Then, we propose a new deceptive jamming method against three-channel SAR-GMTI by using three synergetic transponders. By modulating each transponder with a complex coefficient, three synergetic transponders can generate false moving targets with the controllable radial velocity and located azimuth position in three-channel SAR-GMTI. Besides, in this paper, we also introduce an algorithm to deploy three transponders reasonably by utilizing the minimum condition number. In the end, a general architecture of multiple transponders deceiving multichannel SAR is given. The proposed method can not only generate deceptive false targets against multichannel SAR-GMTI, but also guide the production of a deceptive digital elevation model (DEM) against multichannel interferometric SAR (InSAR). Simulations verify the effectiveness of the proposed method.

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A New Three-Dimension Deceptive Scene Generation against Single-Pass Multibaseline InSAR Based on Multiple Transponders

Dai

Xing

et al. 2020

Sensors

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The interferometry synthetic aperture radar (InSAR) deceptive jamming method utilizing two synergetic transponders can generate a false three-dimension (3D) scene in a single baseline InSAR image. However, such deceptive capability could be reduced by the multibaseline InSAR system. To obtain effective deception on multibaseline InSAR, a novel deceptive scene generation method jointly employing multiple transponders is proposed. It only demands that each transponder is modulated with a complex coefficient when generating a false point. The complex modulation coefficient can be offline calculated according to the deceptive point coordinate by solving a matrix. Besides, the complex modulation coefficient can be combined with the deceptive scene template, and thus a large 3D deceptive scene is able to be created quickly in the multibaseline InSAR image by using the fast two-dimension (2D) SAR deceptive scene generation algorithm. As long as the number of transponders is not less than the number of antennas of the multibaseline InSAR system, this proposed method is effective. The effectiveness of the proposed method is validated by computer simulations.

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High-Resolution Range Profile Recognition Method of Vehicle Targets Based on Accelerated T-SNE with Multi-polarization Fusion

Dai

et al. 2021

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Penghui Ji

Recognition and parameter estimation of spaceborne synthetic aperture radar pulse repetition interval modulation based on short time modified pulse repetition interval transform

An Anti-Jamming Method Against SAR Stationary Deceptive Targets Based on DPCA Processing

Deceptive Targets Generation Simulation Against Multichannel SAR

A New Three-Dimension Deceptive Scene Generation against Single-Pass Multibaseline InSAR Based on Multiple Transponders

High-Resolution Range Profile Recognition Method of Vehicle Targets Based on Accelerated T-SNE with Multi-polarization Fusion

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