论文信息 - Development and path planning of a novel unmanned surface vehicle system and its application to exploitation of Qarhan Salt Lake

Development and path planning of a novel unmanned surface vehicle system and its application to exploitation of Qarhan Salt Lake

Qarhan Salt Lake is rich in mineral resources, such as sodium chloride, potassium, and magnesium [1]. At present, liquid mine exploiting is the main exploitation form for the Qarhan Salt Lake. Salt mining ships with mining equipments are widely used to exploit carnallite which is located at the bottom of pools. Conventionally, workmen utilize rude ferric sampler to collect carnallite samples and estimate their thickness, providing guidance to the salt mining ship [2]. However, the turbid brine and uneven carnallite reduce the efficiency of exploitation, which could no longer meet the rapid mining requirements. Furthermore, the salt mining ship is equipped with the differential global positioning systems (DGPS) to achieve precise position and navigation. How to yield an optimal path rapidly is a real-world topic worthy of further study [3–5].

[1] Songhwai Oh,et al. Fast Sampling-Based Cost-Aware Path Planning With Nonmyopic Extensions Using Cross Entropy , 2017, IEEE Transactions on Robotics.

[2] Junzhi Yu,et al. Sliding mode fuzzy control-based path-following control for a dolphin robot , 2017, Science China Information Sciences.

[3] Wusheng Chou,et al. Path planning for mobile robot using self-adaptive learning particle swarm optimization , 2016, Science China Information Sciences.