Download or read book Robust Multi-unmanned Aerial Vehicles Planning in Dynamic and Uncertain Environments written by Chung Tin and published by . This book was released on 2004 with total page 110 pages. Available in PDF, EPUB and Kindle. Book excerpt: Future unmanned aerial vehicles (UAVs) are expected to operate with higher level of autonomy to execute very complex military and civilian applications. New methods in planning and execution are required to coordinate these vehicles in real-time to ensure maximal efficiency of the team activities. These algorithms must be fast to enable rapid replanning in a dynamic environment. The planner must also be robust to uncertainty in the situational awareness. This thesis investigates the impact of information uncertainty and environmental changes to the task assignment and path planning algorithms. Several new techniques are presented that both speed up and embed robustness into previously published algorithms. The first is an incremental algorithm that significantly reduces the time required to update the cost map used in the task assignment when small changes occur in a complex environment. The second introduces a new robust shortest path algorithm that accounts for uncertainty in the arc costs. The algorithm is computational tractable and is shown to yield performance and robustness that are comparable to more sophisticated algorithms that are not suitable for real-time implementation. Experimental results are presented using this technique on a rover testbed. This thesis also extends a UAV search algorithm to include moving targets in the environment. This new algorithm coordinates a team of UAVs to search an unknown environment while balancing the need to track moving targets. These three improvements have had a big impact because they modify the Receding Horizon Mixed-Integer Linear Programming (RH-MILP) control hierarchy to handle uncertainty and properly react to rapid changes in the environment. Hence, these improvements enable the RH-MILP controller to be implemented in more realistic scenarios.