ORCID
- Sharma, Sanjay: 0000-0002-5062-3199
- Khan, Asiya: 0000-0003-3620-3048
Abstract
Formation control and cooperative motion planning are two major research areas currently being used in multi robot motion planning and coordination. The current study proposes a hybrid framework for guidance and navigation of swarm of unmanned surface vehicles (USVs) by combining the key characteristics of formation control and cooperative motion planning. In this framework, two layers of offline planning and online planning are integrated and applied on a practical marine environment. In offline planning, an optimal path is generated from a constrained A* path planning approach, which is later smoothed using a spline. This optimal trajectory is fed as an input for the online planning where virtual target (VT) based multi-agent guidance framework is used to navigate the swarm of USVs. This VT approach combined with a potential theory based swarm aggregation technique provides a robust methodology of global and local collision avoidance based on known positions of the USVs. The combined approach is evaluated with the different number of USVs to understand the effectiveness of the approach from the perspective of practicality, safety and robustness.
DOI
10.3390/jmse8090624
Publication Date
2020-08-19
Publication Title
Journal of Marine Science and Engineering
Volume
8
Issue
9
First Page
624
Last Page
624
Embargo Period
2021-09-18
Organisational Unit
School of Engineering, Computing and Mathematics
Recommended Citation
Singh, Y., Bibuli, M., Zereik, E., Sharma, S., Khan, A., & Sutton, R. (2020) 'A Novel Double Layered Hybrid Multi-Robot Framework for Guidance and Navigation of Unmanned Surface Vehicles in a Practical Maritime Environment', Journal of Marine Science and Engineering, 8(9), pp. 624-624. Available at: https://doi.org/10.3390/jmse8090624
