Abstract

Proceedings Abstracts of the Twenty-Third International Joint Conference on Artificial Intelligence

Transition Constraints: A Study on the Computational Complexity of Qualitative Change / 1169
Matthias Westphal, Julien Hué, Stefan Wölfl, Bernhard Nebel

Many formalisms discussed in the literature on qualitative spatial reasoning are designed for expressing static spatial constraints only. However, dynamic situations arise in virtually all applications of these formalisms, which makes it necessary to study variants and extensions involving change. This paper presents a study on the computational complexity of qualitative change. More precisely, we discuss the reasoning task of finding a solution to a temporal sequence of static reasoning problems where this sequence is subject to additional transition constraints. Our focus is primarily on smoothness and continuity constraints: we show how such transitions can be defined as relations and expressed within qualitative constraint formalisms. Our results demonstrate that for point-based constraint formalisms the interesting fragments become NP-complete in the presence of continuity constraints, even if the satisfiability problem of its static descriptions is tractable.