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Search: WFRF:(Walega P) > (2017)

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  • Bhatt, Mehul, Professor, 1980-, et al. (author)
  • Declarative Spatial Reasoning for Intelligent Cinematography
  • 2017
  • In: Workshop on Intelligent Cinematography and Editing, WICED 2017. - : Eurographics Association. - 9783038680314
  • Conference paper (peer-reviewed)abstract
    • We present computational visuo-spatial representation and reasoning from the viewpoint of the research areas of artificial intelligence, spatial cognition and computation, and human-computer interaction. The particular focus is on demonstrating recent advances in the theory and practice of spatial reasoning, and its significance and potential as a foundational AI method for (intelligent) computational cinematography & editing systems.
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  • Walega, Przemyslaw Andrzej, et al. (author)
  • Non-monotonic spatial reasoning with answer set programming modulo theories
  • 2017
  • In: Theory and Practice of Logic Programming. - : Cambridge University Press. - 1471-0684 .- 1475-3081. ; 17:2, s. 205-225
  • Journal article (peer-reviewed)abstract
    • The systematic modelling of dynamic spatial systems is a key requirement in a wide range of application areas such as commonsense cognitive robotics, computer-aided architecture design, and dynamic geographic information systems. We present Answer Set Programming Modulo Theories (ASPMT)(QS), a novel approach and fully implemented prototype for non-monotonic spatial reasoning - a crucial requirement within dynamic spatial systems based on ASPMT. ASPMT(QS) consists of a (qualitative) spatial representation module (QS) and a method for turning tight ASPMT instances into Satisfiability Modulo Theories (SMT) instances in order to compute stable models by means of SMT solvers. We formalise and implement concepts of default spatial reasoning and spatial frame axioms. Spatial reasoning is performed by encoding spatial relations as systems of polynomial constraints, and solving via SMT with the theory of real non-linear arithmetic. We empirically evaluate ASPMT(QS) in comparison with other contemporary spatial reasoning systems both within and outside the context of logic programming. ASPMT(QS) is currently the only existing system that is capable of reasoning about indirect spatial effects (i.e., addressing the ramification problem), and integrating geometric and QS information within a non-monotonic spatial reasoning context.
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