Qualitative spatial reasoning about objects in motion: application to physics problem solving

Proceedings of the Tenth Conference on Artificial Intelligence for Applications Pub Date : 1994-03-01 DOI:10.1109/CAIA.1994.323669
R. Rajagopalan, B. Kuipers
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引用次数: 22

Abstract

Describes an ongoing project to develop a theory of qualitative spatial reasoning which merges a simple, intuitive description of the spatial extent, relative position, and orientation of objects with existing methods for qualitative reasoning about dynamically changing worlds. We are applying our theories within a system for problem solving about the magnetic fields domain. We describe methods for integrating diagram and test input to a problem solver, methods of abstraction for modeling the spatial extents of objects, and a method for modeling spatial relations between objects through inequalities on extremal points which directly allows reasoning about the effects of translational motion.<>
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关于运动物体的定性空间推理:在物理问题解决中的应用
描述一个正在进行的开发定性空间推理理论的项目,该理论将对物体的空间范围、相对位置和方向的简单、直观的描述与对动态变化的世界进行定性推理的现有方法相结合。我们正在将我们的理论应用到一个系统中,以解决有关磁场领域的问题。我们描述了将图和测试输入集成到问题解决器的方法,建模对象空间范围的抽象方法,以及通过极值点上的不等式来建模对象之间空间关系的方法,该方法直接允许对平移运动的影响进行推理
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Proceedings of the Tenth Conference on Artificial Intelligence for Applications
Proceedings of the Tenth Conference on Artificial Intelligence for Applications
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