Extensible-scale layout optimization design method for deep space measurement and control antenna array

The invention relates to an extensible-scale layout optimization design method for a deep space measurement and control antenna array, and the method comprises the steps: employing a step-by-step iteration intelligent optimization algorithm for a deep space target detection layout constraint condition, and carrying out the optimization of the positions of to-be-added antennas one by one in each iteration till an optimization function tends to be stable. According to the invention, the antenna is added on the basis of the original array, so that array scale expansion and function improvement are realized. Compared with a traditional antenna array optimization design method, the method has the advantage of expandability, array arrangement is more flexible, and the method can better adapt to antenna array layout constraint conditions needed by actual engineering. 本发明涉及一种深空测控天线组阵可扩展规模布局优化设计方法，其针对深空目标探测布局约束条件，采用逐步迭代智能优化算法，每次迭代需要逐一优化待增加天线的位置，直至优化函数趋于平稳。本发明通过在原有组阵的基础上增加天线，实现组阵规模扩展，功能提升。相较于传统天线组阵优化设计方法，该方法具有可扩展性的特点，且