An Efficient Kinetic Range Query for One Dimensional Axis Parallel Segments

We present a kinetic data structure named Kinetic Interval Graph (KI-Graph) for performing efficient range search on moving one dimensional axis-parallel segments. This finds applications in Artificial Intelligence such as robotic motion. The structure requires O(n) storage. The time taken per update when a critical event occurs is O (1) thereby improving responsiveness when compared to the kinetic segment trees, while the overall updates across all segments at a time instance is at most n/2. Also, range query is performed efficiently in θ (k) time, where k segments are reported.

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Year of publication:	2018
Authors:	Hema, T. ; Easwarakumar, K. S.
Published in:	International Journal of Intelligent Information Technologies (IJIIT). - IGI Global, ISSN 1548-3665, ZDB-ID 2400990-8. - Vol. 14.2018, 1 (01.01.), p. 48-62
Publisher:	IGI Global
Subject:	Computational Geometry \| Interval Graph \| Kinetic Data Structures \| Range Search \| Segments

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Type of publication:	Article
Language:	English
Other identifiers:	10.4018/IJIIT.2018010104 [DOI]
Source:	Other ZBW resources

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