Qualitative spatial reasoning about line segments

R Moratz; J Renz; D Wolter

Qualitative spatial reasoning about line segments

R Moratz, J Renz, D Wolter

School of Computing

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Representing and reasoning about orientation information is an important aspect of qualitative spatial reasoning. We present a novel approach for dealing with intrinsic orientation information by specifying qualitative relations between oriented line segments, the simplest possible spatial entities being extended and having an intrinsic direction. We identify a set of 24 atomic relations which form a relation algebra and for which we compute relational compositions based on their algebraic semantics. Reasoning over the full algebra turns out to be NP-hard. Potential applications of the calculus are motivated with a small example which shows the reasoning capabilities of the dipole calculus using constraint-based reasoning methods.

Original language	English
Title of host publication	Ecai 2000: 14th European Conference On Artificial Intelligence, Proceedings
Editors	W Horn
Publisher	IOS Press
Pages	234-238
Number of pages	5
Volume	54
ISBN (Print)	1-58603-013-2
Publication status	Published - 2000
Event	14th European Conference on Artificial Intelligence - BERLIN, Germany Duration: 20 Aug 2000 → 25 Aug 2000

Publication series

Name	Frontiers In Artificial Intelligence And Applications

Conference

Conference	14th European Conference on Artificial Intelligence
Country/Territory	Germany
City	BERLIN
Period	20/08/00 → 25/08/00

Cite this

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title = "Qualitative spatial reasoning about line segments",

abstract = "Representing and reasoning about orientation information is an important aspect of qualitative spatial reasoning. We present a novel approach for dealing with intrinsic orientation information by specifying qualitative relations between oriented line segments, the simplest possible spatial entities being extended and having an intrinsic direction. We identify a set of 24 atomic relations which form a relation algebra and for which we compute relational compositions based on their algebraic semantics. Reasoning over the full algebra turns out to be NP-hard. Potential applications of the calculus are motivated with a small example which shows the reasoning capabilities of the dipole calculus using constraint-based reasoning methods.",

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pages = "234--238",

editor = "W Horn",

booktitle = "Ecai 2000: 14th European Conference On Artificial Intelligence, Proceedings",

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note = "14th European Conference on Artificial Intelligence ; Conference date: 20-08-2000 Through 25-08-2000",

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Qualitative spatial reasoning about line segments. / Moratz, R; Renz, J; Wolter, D.
Ecai 2000: 14th European Conference On Artificial Intelligence, Proceedings. ed. / W Horn. Vol. 54 IOS Press, 2000. p. 234-238 (Frontiers In Artificial Intelligence And Applications).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Moratz, R

AU - Renz, J

AU - Wolter, D

PY - 2000

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N2 - Representing and reasoning about orientation information is an important aspect of qualitative spatial reasoning. We present a novel approach for dealing with intrinsic orientation information by specifying qualitative relations between oriented line segments, the simplest possible spatial entities being extended and having an intrinsic direction. We identify a set of 24 atomic relations which form a relation algebra and for which we compute relational compositions based on their algebraic semantics. Reasoning over the full algebra turns out to be NP-hard. Potential applications of the calculus are motivated with a small example which shows the reasoning capabilities of the dipole calculus using constraint-based reasoning methods.

AB - Representing and reasoning about orientation information is an important aspect of qualitative spatial reasoning. We present a novel approach for dealing with intrinsic orientation information by specifying qualitative relations between oriented line segments, the simplest possible spatial entities being extended and having an intrinsic direction. We identify a set of 24 atomic relations which form a relation algebra and for which we compute relational compositions based on their algebraic semantics. Reasoning over the full algebra turns out to be NP-hard. Potential applications of the calculus are motivated with a small example which shows the reasoning capabilities of the dipole calculus using constraint-based reasoning methods.

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M3 - Conference contribution

SN - 1-58603-013-2

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T3 - Frontiers In Artificial Intelligence And Applications

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EP - 238

BT - Ecai 2000: 14th European Conference On Artificial Intelligence, Proceedings

A2 - Horn, W

PB - IOS Press

T2 - 14th European Conference on Artificial Intelligence

Y2 - 20 August 2000 through 25 August 2000

ER -

Qualitative spatial reasoning about line segments

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