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A Framework for Robust Cognitive Spatial Mapping
- Publication Year :
- 2009
- Publisher :
- KTH, Datorseende och robotik, CVAP, 2009.
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Abstract
- Spatial knowledge constitutes a fundamental component of the knowledge base of a cognitive, mobile agent. This paper introduces a rigorously defined framework for building a cognitive spatial map that permits high level reasoning about space along with robust navigation and localization. Our framework builds on the concepts of places and scenes expressed in terms of arbitrary, possibly complex features as well as local spatial relations. The resulting map is topological and discrete, robocentric and specific to the agent's perception. We analyze spatial mapping design mechanics in order to obtain rules for how to define the map components and attempt to prove that if certain design rules are obeyed then certain map properties are guaranteed to be realized. The idea of this paper is to take a step back from existing algorithms and literature and see how a rigorous formal treatment can lead the way towards a powerful spatial representation for localization and navigation. We illustrate the power of our analysis and motivate our cognitive mapping characteristics with some illustrative examples. QC 20110228
- Subjects :
- Computer and Information Sciences
Fundamental component
Illustrative examples
Data- och informationsvetenskap
High-level reasoning
Localization and navigation
Spatial relations
Robotics
Navigation
Knowledge base
Robust navigation
Cognitive mapping
Design rules
Spatial knowledge
Spatial mapping
Knowledge based systems
Mobile agents
Spatial representations
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Accession number :
- edsair.od.......260..51839250e59575595fb8604a76c84731