The optimal resource sharing is key to delivering the promise of radar–communication systems, since the spectrum is shared while competed to perform radar and communication tasks. In this article, a joint target and user assignment as well as dwell time and spectrum allocation strategy is proposed for the distributed radar–communication coexistence network. The optimization model is formulated as minimizing the sum of weighted position Bayesian Cramér–Rao lower bounds under the dwell time and spectrum budgets while meeting the communication downlink requirements. The optimization model is shown to be a mixed-integer programming problem, where the binary assignment variables and continuous resource allocation variables are coupled in both the objective function and constraints. A three-stage alternate optimization method (TSAOM) is developed for problem solving. The target assignment and dwell time allocation (TADTA) problem and the user assignment and spectrum allocation (UASA) problem are separately relaxed as convex ones. Then, a cyclical minimizer framework is applied for the suboptimal solution. Simulations confirm the tracking performance improvement of the proposed strategy compared with two baseline allocation strategies. The results also show the effectiveness and efficiency of the developed TSAOM in comparison with the baseline algorithm.
Joint Target and User Assignment as well as Dwell Time and Spectrum Allocation in a Distributed Radar–Communication Coexistence Network
IEEE Transactions on Aerospace and Electronic Systems ; 60 , 1 ; 1159-1175
2024-02-01
2764601 byte
Article (Journal)
Electronic Resource
English
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