Afit Uav Swarm Mission Planning and Simulation System

The purpose of this research is to design and implement a comprehensive mission planning system for swarms of autonomous aerial vehicles. The system integrates several problem domains including path planning vehicle routing and swarm behavior. The developed system consists of a parallel multi-objective evolutionary algorithm-based path planner a genetic algorithm-based vehicle router and a parallel UAV swarm simulator. Both the path planner and the UAV swarm simulator are developed on AFITs Beowulf parallel computer clusters. An extensive set of tests are performed to validate the system components as well as the system integration. Tests focus on two primary objectives: efficiency and effectiveness. The simulator is interfaced with a visualization system that serves as both an iterative design tool and as a mission playback tool. As a design tool the visualization system provides rapid feedback allowing developers to quickly observe the effects of model changes on its behavior. As a mission playback tool decision makers and mission planners can view mission scenarios played out with different sets of parameters. Novel aspects of this research include: integrating terrain following technology into a swarm model as a means of detection avoidance combining practical problems of path planning and routing into a comprehensive mission planning strategy and the development of a swarm behavior model with path following capabilities. The culmination of this effort is the development of an extensible developmental model for swarm behavior. Discussions on the of the systems capabilities and limitations are presented along with recommendation for further development.