AbstractThe main goal of this paper is to outline a methodology of programming in dynamic problem domains. The methodology is based on recent developments in theories of reasoning about action and change and in logic programming. The basic ideas of the approach are illustrated by discussion of the design of a program which verifies plans to control the Reaction Control System (RCS) of the Space Shuttle. We start with formalization of the RCS domain in an action description language. The resulting formalization ARCS together with a candidate plan α and a goal G are given as an input to a logic program. This program verifies if G would be true after executing α in the current situation. A high degree of trust in the progr...
AbstractWe give an algorithm for “before-after” reasoning about action. The algorithm decides satisf...
The paper describes an approach to reasoning about actions and planning that starting from a logical...
In this thesis, we study advanced reasoning about dynamical systems in a logical framework -- the si...
AbstractThe main goal of this paper is to outline a methodology of programming in dynamic problem do...
AbstractThe main goal of this paper is to outline a methodology of programming in dynamic problem do...
We live in a dynamic world, full of situations which can be manipulated by our actions. The ability ...
textKnowledge about actions is an important part of commonsense knowledge studied in Artificial Inte...
In this paper we describe a language for reasoning about actions that can be used for modelling and ...
Introduction. Many domains that we wish to model and reason about are subject to change due to the e...
AbstractWe address the problem of representing common sense knowledge about action domains in the fo...
In this paper we propose a modal approach for reasoning about dynamic domains in a logic programmin...
During the last years, a number of formal specification languages for knowledge-based systems has be...
During the last years, a number of formal specification languages for knowledge-based systems has be...
Dynamic logic is a logic to reason about the dynamics of (natural or artificial) systems in general...
Abstract. Reasoning about change is a central issue in research on human and robot planning. We stud...
AbstractWe give an algorithm for “before-after” reasoning about action. The algorithm decides satisf...
The paper describes an approach to reasoning about actions and planning that starting from a logical...
In this thesis, we study advanced reasoning about dynamical systems in a logical framework -- the si...
AbstractThe main goal of this paper is to outline a methodology of programming in dynamic problem do...
AbstractThe main goal of this paper is to outline a methodology of programming in dynamic problem do...
We live in a dynamic world, full of situations which can be manipulated by our actions. The ability ...
textKnowledge about actions is an important part of commonsense knowledge studied in Artificial Inte...
In this paper we describe a language for reasoning about actions that can be used for modelling and ...
Introduction. Many domains that we wish to model and reason about are subject to change due to the e...
AbstractWe address the problem of representing common sense knowledge about action domains in the fo...
In this paper we propose a modal approach for reasoning about dynamic domains in a logic programmin...
During the last years, a number of formal specification languages for knowledge-based systems has be...
During the last years, a number of formal specification languages for knowledge-based systems has be...
Dynamic logic is a logic to reason about the dynamics of (natural or artificial) systems in general...
Abstract. Reasoning about change is a central issue in research on human and robot planning. We stud...
AbstractWe give an algorithm for “before-after” reasoning about action. The algorithm decides satisf...
The paper describes an approach to reasoning about actions and planning that starting from a logical...
In this thesis, we study advanced reasoning about dynamical systems in a logical framework -- the si...