Underwater Sparse Acoustic Sensor Array Design under Spacing Constraints Based on a Global Enhancement Whale Optimization Algorithm

Abstract: Sparse arrays with low cost and engineering complexity are widely applied in many fields. However, the high peak sidelobe level (PSLL) of a sparse array causes the degradation of weak target detection performance. Particularly for the large size of underwater low-frequency sensors, the design problem requires a minimum spacing constraint, which further increases the difficulty of PSLL suppression. In this paper, a novel swarm-intelligence-based approach for sparse sensor array design is proposed to reduce PSLL… Show more

“…The second methodology was a neural network. Wang et al [7] proposed a novel swarm-intelligence-based approach for a sparse sensor array design to reduce PSLL under spacing constrains. Xiong et al [8] proposed a new algorithm for a higher-order vector finite element method based on two new types of second-order edge elements to solve the electromagnetic-field diffusion problem in a 3D anisotropic medium.…”

Special Issue on Advances in Applied Marine Sciences and Engineering

“…The second methodology was a neural network. Wang et al [7] proposed a novel swarm-intelligence-based approach for a sparse sensor array design to reduce PSLL under spacing constrains. Xiong et al [8] proposed a new algorithm for a higher-order vector finite element method based on two new types of second-order edge elements to solve the electromagnetic-field diffusion problem in a 3D anisotropic medium.…”

Special Issue on Advances in Applied Marine Sciences and Engineering