Sensors, Vol. 22, Pages 145: Jamming Strategy Optimization through Dual Q-Learning Model against Adaptive Radar

Sensors, Vol. 22, Pages 145: Jamming Strategy Optimization through Dual Q-Learning Model against Adaptive Radar Sensors doi: 10.3390/s22010145 Authors: Hongdi Liu Hongtao Zhang Yuan He Yong Sun Modern adaptive radars can switch work modes to perform various missions and simultaneously use pulse parameter agility in each mode to improve survivability, which leads to a multiplicative increase in the decision-making complexity and declining performance of the existing jamming methods. In this paper, a two-level jamming decision-making framework is developed, based on which a dual Q-learning (DQL) model is proposed to optimize the jamming strategy and a dynamic method for jamming effectiveness evaluation is designed to update the model. Specifically, the jamming procedure is modeled as a finite Markov decision process. On this basis, the high-dimensional jamming action space is disassembled into two low-dimensional subspaces containing jamming mode and pulse parameters respectively, then two specialized Q-learning models with interaction are built to obtain the optimal solution. Moreover, the jamming effectiveness is evaluated through indicator vector distance measuring to acquire the feedback for the DQL model, where indicators are dynamically weighted to adapt to the environment. The experiments demonstrate the advantage of the proposed method in learning radar joint strategy of mode switching and parameter agility, shown as improving the average jamming-to-signal...
Source: Sensors - Category: Biotechnology Authors: Tags: Article Source Type: research