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A Review of Sensing Technologies for Indoor Autonomous Mobile Robots

Yu Liu, Shuting Wang, Yuanlong Xie, Tifan Xiong, Mingyuan Wu

Year
2024
Citations
69
Access
Open access

Abstract

As a fundamental issue in robotics academia and industry, indoor autonomous mobile robots (AMRs) have been extensively studied. For AMRs, it is crucial to obtain information about their working environment and themselves, which can be realized through sensors and the extraction of corresponding information from the measurements of these sensors. The application of sensing technologies can enable mobile robots to perform localization, mapping, target or obstacle recognition, and motion tasks, etc. This paper reviews sensing technologies for autonomous mobile robots in indoor scenes. The benefits and potential problems of using a single sensor in application are analyzed and compared, and the basic principles and popular algorithms used in processing these sensor data are introduced. In addition, some mainstream technologies of multi-sensor fusion are introduced. Finally, this paper discusses the future development trends in the sensing technology for autonomous mobile robots in indoor scenes, as well as the challenges in the practical application environments.

Keywords

Mobile robotRobotRoboticsComputer scienceObstacleArtificial intelligenceSensor fusionHuman–computer interactionReal-time computingGeography

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