Title :
Fuzzy Multi-Objective Mission Flight Planning in Unmanned Aerial Systems
Author :
Wu, Paul ; Clothier, Reece ; Campbell, Duncan ; Walker, Rodney
Author_Institution :
Australian Res. Centre for Aerosp. Autom., Queensland Univ. of Technol., Brisbane, Qld.
Abstract :
This paper discusses the development of a multi-objective mission flight planning algorithm for unmanned aerial system (UAS) operations within the National Airspace System (NAS). Existing methods for multi-objective planning are largely confined to two dimensional searches and/or acyclic graphs in deterministic environments; many are computationally infeasible for large state spaces. In this paper, a multi-objective fuzzy logic decision maker is used to augment the D* Lite graph search algorithm in finding a near optimal path. This not only enables evaluation and trade-off between multiple objectives when choosing a path in three dimensional space, but also allows for the modelling of data uncertainty. A case study scenario is developed to illustrate the performance of a number of different algorithms. It is shown that a fuzzy multi-objective mission flight planner provides a viable method for embedding human expert knowledge in a computationally feasible algorithm
Keywords :
aerospace control; decision making; fuzzy logic; graph theory; planning; remotely operated vehicles; search problems; D Lite graph search algorithm; National Airspace System; acyclic graphs; flight planner; fuzzy multiobjective mission flight planning; large state spaces; multiobjective fuzzy logic decision maker; multiobjective planning; unmanned aerial system; unmanned aerial systems; Aerospace industry; Aircraft; Australia; Computational intelligence; Costs; Fuzzy systems; Humans; Process planning; Strategic planning; Systems engineering and theory;
Conference_Titel :
Computational Intelligence in Multicriteria Decision Making, IEEE Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
1-4244-0702-8
DOI :
10.1109/MCDM.2007.369409
