Global localization for mobile robots in symmetrical indoor environments: a review, practical challenges, and experimental validation

Shiron Anto Melvin; Hai Wang; Amirmehdi Yazdani

doi:10.1017/S0263574725102518

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Global localization for mobile robots in symmetrical indoor environments: a review, practical challenges, and experimental validation

Journal article

Open access

Global localization for mobile robots in symmetrical indoor environments: a review, practical challenges, and experimental validation

Shiron Anto Melvin, Hai Wang and Amirmehdi Yazdani

Robotica, First View

2026

DOI: https://doi.org/10.1017/S0263574725102518

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Abstract

mobile robots

indoor global localization

symmetrical environment

probabilistic-based approaches

learning-based approaches

SLAM-based approaches

optimization-based approaches

Efficient global localization of mobile robots in symmetrical indoor environments remains a formidable challenge, given the inherent complexities arising from uniform structures and a dearth of distinctive features. This review paper conducts an in-depth investigation into the nuances of global localization strategies, focusing on symmetrical environments, such as extended corridors, symmetrical rooms, tunnels, and industrial warehouses. The study comprehensively reviews and categorizes key techniques employed in this context, encompassing probabilistic-based approaches, learning-based approaches, Simultaneous Localization and Mapping (SLAM)-based approaches, and optimization-based approaches. The primary goal is to provide a contemporary and thorough literature review, offering insights into existing global localization solutions, followed by extant methods tailored for symmetrical indoor spaces. Also, the paper addresses practical challenges associated with implementing various global localization techniques, contributing to a holistic understanding of their real-world applicability. Comparative experimental results demonstrate that hybrid approaches achieve superior localization accuracy in symmetrical environments compared to any single method alone. These experiments, conducted in indoor settings with different symmetry levels, highlight the hybrid approach’s robustness and precision in resolving symmetry-induced ambiguities. This work signifies a significant step forward in mobile robot global localization, which addresses symmetrical environments’ complexities by leveraging the strengths of hybrid methodologies.

Details

Title: Global localization for mobile robots in symmetrical indoor environments: a review, practical challenges, and experimental validation
Authors/Creators: Shiron Anto Melvin
Hai Wang - Murdoch University, Centre for Water, Energy and Waste
Amirmehdi Yazdani - Murdoch University, School of Engineering and Energy
Publication Details: Robotica, First View
Publisher: Cambridge University Press; CAMBRIDGE
Number of pages: 43
Identifiers: 991005851088207891
Murdoch Affiliation: School of Engineering and Energy; Centre for Water, Energy and Waste
Resource Type: Journal article

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Citation topics: 4 Electrical Engineering, Electronics & Computer Science; 4.116 Robotics; 4.116.133 Simultaneous Localization and Mapping
Web Of Science research areas: Robotics
ESI research areas: Engineering