Planning of UAV Flight Routes in the Problems of Group Patrolling of the Extended Territories

Q4 Engineering

Mekhatronika, Avtomatizatsiya, Upravlenie Pub Date : 2023-07-09 DOI:10.17587/mau.24.374-381

A. Filimonov, N. Filimonov, Т. К. Nguyen, Q. P. Pham

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引用次数: 1

Abstract

Currently one of the promising areas of joint use of unmanned aerial vehicles (UAVs) is group air patrolling of large territories. Here the organization of patrolling assumes the solving the planning problem of routes flight of UAV group. The paper considers the problem of optimal planning of flight routes of the same type of UAVs during group patrolling of large territories. The territorial waters or narrow border areas of any State may serve as an example of such territories. It is suggested that the patrolled area has an elongated shape and is divided into a chain of adjacent patrol zones prescribed by a separate UAV. The drone’s flight route passes through adjacent zones. The flight task performed periodically by each drone consists in moving it to a given flight zone, collecting operational data and transmitting this data to a control point (center, station). The optimization aspect of UAV flight route planning is to minimize the maximum time required to complete flight tasks. The considered problem of group patrolling reduced to the multiple traveling salesman problem — one of the classic intractable combinatorial optimization problems. A brief analysis of modern methods for solving the multiple traveling salesman problem is given. Due to the lack of effective exact methods for solving this problem, it is natural to use approximate heuristic and metaheuristic methods focused on solving NP-hard optimization problems, reducing the full search and giving a solution close to the exact one. The multiple traveling salesman problem considered in this paper is reduced to the problem of integer linear programming, for the solution of which a genetic algorithm implemented in MATLAB based on the mathematical package Global Optimization Toolbox is proposed. An illustrative example of patrolling by three UAVs of an extended territory with 11 adjacent zones is considered. Computational experiments confirm the effectiveness of the algorithmic solutions proposed in the work.

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无人机扩展区域群巡问题中的航路规划

目前，无人机联合应用的一个很有前途的领域是大范围的空中巡逻。在此，组织巡逻承担了解决无人机群航线飞行规划问题的任务。研究了同类型无人机在大区域群巡逻时的航路优化规划问题。任何国家的领水或狭窄的边界地区都可作为这种领土的一个例子。建议巡逻区域有一个细长的形状，并由一个单独的无人机划分成一个相邻的巡逻区域链。无人机的飞行路线会经过邻近区域。每架无人机定期执行的飞行任务包括将其移动到给定的飞行区域，收集操作数据并将这些数据传输到控制点(中心，站)。无人机航路规划的优化方面是使完成飞行任务所需的最大时间最小化。将考虑的群体巡逻问题简化为经典的难解组合优化问题之一的多个旅行商问题。简要分析了求解多重旅行商问题的现代方法。由于缺乏有效的精确方法来解决这一问题，因此很自然地使用近似启发式和元启发式方法来解决NP-hard优化问题，减少全搜索并给出接近精确的解。本文将多旅行商问题简化为整数线性规划问题，提出了一种基于数学包全局优化工具箱的MATLAB遗传算法。考虑了一个由3架无人机在具有11个相邻区域的扩展领土上巡逻的说明性示例。计算实验验证了所提算法解的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Mekhatronika, Avtomatizatsiya, Upravlenie Engineering-Electrical and Electronic Engineering

CiteScore

0.90

自引率

0.00%

发文量