论文信息 - A uniform representation for time and space and their mutual constraints

A uniform representation for time and space and their mutual constraints

Abstract Much recent work in reasoning systems has concentrated on the role of time in planning, action modeling, and tasks in domains where time is important. On the other hand, there are systems that concentrate on spatial reasoning, especially where manipulation or managing of the environment is important, as in robot route planning. The integration of the two themes is a goal which, if possible, would allow the interaction of space and time to be explored. A problem-solving system would then be able to reason about the times at which actions might occur, in the light of spatial constraints, or vice versa, to reason about the places in which actions take place, and the temporal constraints involved. This paper shows a way to integrate the representation of both time and space in a framework that allows uniform reasoning across both dimensions. An ontology for objects, events, states, and processes is provided using conceptual graphs for representation, and a syntactic extension to Sowa's conceptual graph formalism (see Sowa's article, this volume) is presented to support the effort.

R. Hartley | Roger T. Hartley

[1] Amy L. Lansky,et al. Localized Representation and Planning Methods for Parallel Domains , 1987, AAAI.

[2] James F. Allen. Maintaining knowledge about temporal intervals , 1983, CACM.

[3] Roger T. Hartley,et al. The MGR Algorithm and its Application to the Generation of Explanations for Novel Events , 1987, Int. J. Man Mach. Stud..

[4] P. Schönemann. On artificial intelligence , 1985, Behavioral and Brain Sciences.

[5] Ernest Davis,et al. Representations of commonsense knowledge , 2014, notThenot Morgan Kaufmann series in representation and reasoning.

[6] Drew McDermott,et al. Temporal Data Base Management , 1987, Artif. Intell..

[7] Stuart C. Shapiro,et al. Using Active Connection Graphs for Reasoning with Recursive Rules , 1981, IJCAI.

[8] Kristian J. Hammond,et al. CHEF: A Model of Case-Based Planning , 1986, AAAI.

[9] Bernard Moulin,et al. Extending the conceptual graph model for differentiating temporal and non-temporal knowledge , 1992 .

[10] Edward P. K. Tsang,et al. The Consistent Labeling Problem in Temporal Reasoning , 1987, AAAI.

[11] William J. Clancey,et al. The Advantages of Abstract Control Knowledge in Expert System Design , 1983, AAAI.

[12] John F. Sowa,et al. Lexical Structures and Conceptual Structures , 1993 .