Robotics (Nov 2024)

Context-Specific Navigation for ‘Gentle’ Approach Towards Objects Based on LiDAR and URF Sensors

  • Claudia Álvarez-Aparicio,
  • Beáta Korcsok,
  • Adrián Campazas-Vega,
  • Ádám Miklósi,
  • Vicente Matellán,
  • Bence Ferdinandy

DOI
https://doi.org/10.3390/robotics13110167
Journal volume & issue
Vol. 13, no. 11
p. 167

Abstract

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Navigation skills are essential for most social and service robotics applications. The robots that are currently in practical use in various complex human environments are generally very limited in their autonomous navigational abilities; while they can reach the proximity of objects, they are not efficient in approaching them closely. The new solution described in this paper presents a system to solve this context-specific navigation problem. The system handles locations with differing contexts based on the use of LiDAR and URF sensors, allowing for the avoidance of people and obstacles with a wide margin, as well as for approaching target objects closely. To quantify the efficiency of our solution we compared it with the ROS contextless standard navigation (move_base) in two different robot platforms and environments, both with real-world tests and simulations. The metrics selected were (1) the time the robot needs to reach an object, (2) the Euclidean distance, and (3) the orientation between the final position of the robot and the defined goal position. We show that our context-specific solution is superior to the standard navigation both in time and Euclidean distance.

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