Yubin Fu, Xiaochuan Ma, Chao Feng, Xingxuan Pei, Pengzhuo Li
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引用次数: 0
摘要
摘要浅海下低速目标的多普勒频移经常受到混响多普勒扩频杂波的干扰。杂波是由水下散射体产生的,增加了多普勒估计的难度。针对这一问题,本文提出了一种基于多普勒扩频杂波统计模型的混响目标分辨函数。该函数通过混响多普勒杂波的宽度,通过判断目标是否可分辨来调整波形参数。此外,混响多普勒扩频杂波具有时空变化特征,受掠掠角、波浪、风速、鱼群等影响。因此,声纳波形参数需要不断调整。因此,本文将基于强化学习的认知声纳与混响目标分辨函数相结合,评估不同环境下的不同波形。因此,声纳可以实时调整波形参数,在不同环境下获得最优波形。同时,本文对Dyna-Q强化学习的动作选择策略进行优化,提出了基于模型的最大动作选择Dyna-Q算法(Dyna-Q- max - action)。与传统的Dyna-Q和Q-learning算法相比,该算法所需的集数更少。最后,通过数值仿真验证了算法的有效性。
Model-based optimal action selection for Dyna-Q reverberation suppression cognitive sonar
Abstract The Doppler shift of low-speed targets is frequently disturbed by the reverberation Doppler spread clutter under the shallow sea. The clutter is generated by underwater scatterers, which increases the difficulty of Doppler estimation. To solve this problem, a reverberation target resolution function based on the Doppler spread clutter statistical model is proposed in this paper. Through the width of reverberation Doppler clutter, this function adjusts the waveform parameters by determining whether the target is discriminable. In addition, the reverberation Doppler spread clutter is time-spatial varying and affected by grazing angle, waves, wind speed, fish and other effects. Thus, the sonar waveform parameters need to be adjusted constantly. Therefore, this paper combines the cognitive sonar based on reinforcement learning with the reverberation target resolution function to evaluate different waveforms in different environments. Consequently, the sonar can adjust the waveform parameters in real-time and obtain the optimal waveform in different environments. Meanwhile, in this paper, the action selection strategy of Dyna-Q reinforcement learning is optimized, and the model-based maximum action selection Dyna-Q algorithm (Dyna-Q-Max-Action) is proposed. Compared with the traditional Dyna-Q and Q-learning algorithms, the proposed algorithm needs fewer episodes. Finally, numerical simulation verified the effectiveness of the proposed algorithm.
期刊介绍:
The aim of the EURASIP Journal on Advances in Signal Processing is to highlight the theoretical and practical aspects of signal processing in new and emerging technologies. The journal is directed as much at the practicing engineer as at the academic researcher. Authors of articles with novel contributions to the theory and/or practice of signal processing are welcome to submit their articles for consideration.