摘要
为提高常规导弹连续波次作战效能,对常规导弹连续波次作战运输规划问题进行研究。以Floyd算法为基础,首先生成了作战机动区域的交通网络最短路径、距离矩阵;其次将常规导弹连续波次作战运输过程分解为不同阶段,以运输过程中的整体暴露时间最短为目标,构建了初始规划方案0-1整数规划模型;然后考虑道路通行量及地域容量限制,对初始规划方案中存在的地域容量超过限制及单行道路中会车、超车情况进行逐步循环优化,以得到最佳运输规划方案;最后选择了一个作战案例想定,通过Matlab编程对案例进行了求解,得到了针对此案例的最佳运输规划方案,验证了模型的正确性和算法的有效性。
In order to improve continuous wave operation effectiveness of conventional missiles, the problem of its transport planning is studied. Based on Floyd algorithm, the shortest path and distance matrix of the traffic network are firstly generated. Secondly, continuous wave operation transport process of conventional missiles is decomposed into different stages. Aimed at making the overall exposure time in the process of transportation shortest, this paper builds the initial 0-1 integer programming model. Then taking regional road traffic and capacity limits into consideration, we gradually optimize the initial plan which exists cases that exceed limits and other undesirable details to get the best transportation planning. Finally, a combat case is selected and the case is solved by Matlab programming, and the optimal transportation planning scheme is obtained. The results verify the correctness of the model and validity of the algorithm.
作者
张巍
姜大立
周振
徐建楠
ZHANG Wei;JIANG Dali;ZHOU Zhen;XU Jiannan(Army Logistics University,Chongqing 401311,China)
出处
《国防科技》
2019年第3期18-27,共10页
National Defense Technology
基金
国家社科基金项目(14gj003-106)
关键词
系统工程
运输规划
FLOYD算法
常规导弹
暴露时间
通行量限制
地域容量限制
systems engineering
transport planning
Floyd algorithm
conventional missiles
exposure time
road traffic limits
regional capacity limits
