Optimized Design for Vibration and Noise Reduction of Sonar Transmissive Window Structure
With the increasing demand for comprehensive performance of sonar transmissive window structures,the effective combination of optimization design methods to achieve vibration and noise reduction is one of the critical research areas in the design of transmissive window structures.In this paper,the NSGA-Ⅱalgorithm is used to carry out the multi-objective optimization of the sonar transmissive window structure for vibration and noise reduction.Global sensitivity analysis of transmissive window structures using the Optimal Latin Hypercube technique.Identify key factors,determine multi-objective optimization design variables,and establish multi-objective optimization models and methods for sonar window sandwich structures.The robustness of the method is verified.The NSGA-Ⅱ method is used to solve this multi-objective problem.The optimization results show that the vibration acceleration of the structure has been significantly reduced,and the vibration and noise reduction effect has been significantly improved,achieving the design goal of low vibration and light weight of the sonar window.Design ideas and technical support are proposed for the vibration and noise reduction of sonar transmissive window sandwich structure.
sonar transmissive windowoptimal Latin hypercube designNSGA-Ⅱ methodvibration and noise reduction
NETL
NSTL
万方数据
