For scenes such as floods and earthquakes, the disaster area is large, and rescue time is tight. Multi-UAV exploration is more efficient than a single UAV. Existing UAV exploration work is modeled as a Coverage Path Planning (CPP) task to achieve full coverage of the area in the presence of obstacles. However, the endurance capability of UAV is limited, and the rescue time is urgent. Thus, even using multiple UAVs cannot achieve complete disaster area coverage in time. Therefore, in this paper we propose a multi-Agent Endurance-limited CPP (MAEl-CPP) problem based on a priori heatmap of the disaster area, which requires the exploration of more valuable areas under limited energy. Furthermore, we propose a path planning algorithm for the MAEl-CPP problem, by ranking the possible disaster areas according to their importance through satellite or remote aerial images and completing path planning according to the importance level. Experimental results show that our proposed algorithm is at least twice as effective as the existing method in terms of search efficiency.
翻译:对于洪水和地震等场景,灾害区面积很大,救援时间很紧。多无人驾驶航空器的勘探比单一无人驾驶航空器更有效率。现有的无人驾驶航空器的勘探工作以覆盖路径规划(CPP)为模型,在存在障碍的情况下全面覆盖该地区。然而,无人驾驶航空器的耐力有限,救援时间紧迫。因此,即使使用多个无人驾驶航空器,也无法及时实现完全的灾区覆盖。因此,在本文件中,我们提议基于灾区前方热映射的多点持续状态(MAEl-CPP)问题,这需要在有限的能源下探索更有价值的地区。此外,我们提议对MAEL-CPP问题进行路径规划算法,通过卫星或远程航空图像对可能发生的灾害地区的重要性进行排序,并根据重要程度完成路径规划。实验结果表明,我们提议的算法在搜索效率方面至少比现有方法有效一倍。
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