Distributed radar multiframe detection (DR-MFD) can detect dim targets through a longer fusion period of multiradar observations. However, the communication cost associated with DR-MFD is usually huge, causing a heavy hardware burden in the real application. This article investigates the dim target detection problem with the DR-MFD system and aims to realize the DR-MFD with a good detection performance and a low communication cost. To compress local data, local test statistics formed at each frame are quantized by the Fisher information maximization-based quantization (FIMQ), and the quantized outputs are transmitted to a fusion center (FC). A generalized locally most powerful (GLMP) detector is derived to fuse the received multiframe quantized outputs at the FC. It is proved that the FIMQ is asymptotically optimal for the GLMP detector in the sense of detection performance. A closed-form solution is provided to find the local quantization thresholds of the FIMQ. Simulation results indicate that the GLMP detector outperforms the generalized likelihood ratio detector in most situations. The asymptotic optimality of the FIMQ is also corroborated. In addition, for the GLMP detector with 3-bit FIMQ, the signal-to-noise ratio loss caused by data quantization can reach a 0.11 dB level.
Distributed Detection With Generalized Locally Most Powerful Fusion of Compressed Local Multiframe Test Statistics
IEEE Transactions on Aerospace and Electronic Systems ; 59 , 5 ; 5342-5362
2023-10-01
1694003 byte
Article (Journal)
Electronic Resource
English
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