Publication Type : Conference Paper
Publisher : International Symposium of Asian Control Association on Intelligent Robotics and Industrial Automation (IRIA)
Source : 2021 International Symposium of Asian Control Association on Intelligent Robotics and Industrial Automation (IRIA), Goa, India, 2021, pp. 345-350, DOI: 10.1109/IRIA53009.2021.9588693.
Url : https://ieeexplore.ieee.org/abstract/document/9588693
Campus : Coimbatore
School : School of Computing
Year : 2021
Abstract : Autonomously navigating a robot in an unknown scene comprises tasks such as mapping and localization from the percepts via sensors, safe motion-planning under partial knowledge of the scene, and finally, plan execution using the available motion primitives of the robot. Though many software systems are available for these sub-tasks, there is a lack of integrated software that support autonomous navigation. In this paper, we present an integrated software framework comprising of simultaneous localization and mapping module using visual odometry, a motion-planning module based on constraint-solving, and a plan-execution module particularly designed for a lizard-inspired quadruped robot. To demonstrate its efficacy, we present a number of navigation tasks to the software framework in various indoor simulation settings together with a model of the lizard-inspired quadruped robot and show the results.
Cite this Research Publication : Mir Md Sajid Sarwar, Rajeshwar Yadav, Sudip Samanta, Rajarshi Ray, Raju Halder, Gourinath Banda, Ansuman Bhattacharya, Atul Thakur, "A Robotic Software Framework for Autonomous Navigation in Unknown Environment," 2021 International Symposium of Asian Control Association on Intelligent Robotics and Industrial Automation (IRIA), Goa, India, 2021, pp. 345-350, DOI: 10.1109/IRIA53009.2021.9588693.