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JOURNALS // Informatika i Ee Primeneniya [Informatics and its Applications] // Archive

Inform. Primen., 2020 Volume 14, Issue 1, Pages 101–112 (Mi ia651)

This article is cited in 2 papers

Simultaneous localization and mapping method in three-dimensional space based on the combined solution of the point–point variation problem ICP for an affine transformation

A. V. Vokhmintcevab, A. V. Melnikovb, S. A. Pachganovb

a Chelyabinsk State University, 129 Br. Kashirinyh Str., Chelyabinsk 454001, Russian Federation
b Ugra State University, 16 Chekhov Str., Khanty-Mansiysk 628012, Russian Federation

Abstract: Simultaneous localization and mapping is a problem in which frame data are used as the only source of external information to define the position of a moving camera in space and at the same time, to reconstruct a map of the study area. Nowadays, this problem is considered solved for the construction of two-dimensional maps for small static scenes using range sensors such as lasers or sonar. However, for dynamic, complex, and large-scale scenes, the construction of an accurate three-dimensional map of the surrounding space is an active area of research. To solve this problem, the authors propose a solution of the point–point problem for an affine transformation and develop a fast iterative algorithm for point clouds registering in three-dimensional space. The performance and computational complexity of the proposed method are presented and discussed by an example of reference data. The results can be applied for navigation tasks of a mobile robot in real-time.

Keywords: registration problem, localization, simultaneous localization and mapping, affine transformation, two-dimensional descriptors, iterative closest point.

Received: 25.02.2019

DOI: 10.14357/19922264200114



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