Compressed Sensing Mask Feature in Time-Frequency Domain for Civil ...
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In this work, we propose a compressed sensing mask feature in ambiguity domain, which can significantly improve the recognition rate of civil flight radar ...
work, we propose a compressed sensing mask feature in ambiguity domain, which can significantly improve the recognition rate of civil flight radar emitters.
Specific emitter identification (SEI) is gaining popularity since it can distinguish different individuals in same type of radar emitter under complex ...
In this paper, a compressed sensing based feature ambiguity function mask is proposed to serve as a time-frequency feature for emitter recognition. The.
Zhu et al. [13] proposed a compressed sensing mask feature in the ambiguity domain, which can significantly improve the recognition rate of civil flight radar ...
Bibliographic details on Compressed Sensing Mask Feature in Time-Frequency Domain for Civil Flight Radar Emitter Recognition.
Compressed sensing mask feature in time-frequency domain for civil flight radar emitter recognition. M Zhu, X Zhang, Y Qi, H Ji. 2018 IEEE International ...
Compressed sensing mask feature in time-frequency domain for civil flight radar emitter recognition. M Zhu, X Zhang, Y Qi, H Ji. 2018 IEEE International ...
1. Compressed sensing mask feature in time-frequency domain for civil flight radar emitter recognition, presented at 2018 IEEE International Conference on ...
May 3, 2024 · In this paper, we propose a novel domain generalization framework to improve the adaptability of signal recognition in changing environments.