Fork Agv: Estimation Of Combined Magnetic Sensor With Vision Guide Applied On Automatic Mobile Transporter For Navigation And Accurate Positioning

The project creates a Fork AGV robotic navigation system that aims to increase the speed of goods mobilization and effectiveness at operational costs and reduce the high level of error in the world of warehousing and industry then replace it with the creation of an automatic integrated navigation an...

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Bibliographic Details
Published in2021 International Electronics Symposium (IES) pp. 5 - 11
Main Authors Tamara, Mohamad Nasyir, Risnumawan, Anhar, Tamami, Ni'am, Basith Abdurrohman, A.
Format Conference Proceeding
LanguageEnglish
Published IEEE 29.09.2021
Subjects
Fork AGV robot
Laser radar
Location awareness
Magnetic sensors
Navigation
Navigation and Estimation control
Robot vision systems
Service robots
Visual guidance
Warehousing
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Summary:The project creates a Fork AGV robotic navigation system that aims to increase the speed of goods mobilization and effectiveness at operational costs and reduce the high level of error in the world of warehousing and industry then replace it with the creation of an automatic integrated navigation and control system of AGV robots. This AGV robot prototype using navigation with a combination of lIDAR sensor for localization and environmental mapping processes, cameras to detect objects that will be targeted by robots and magnetic sensor pins that will be used by Fork AGV robot to estimate and accurate position of robots that will become a guide to the operational motion of the Fork AGV robot. The use and development of the sensor can make a Fork AGV robot has better and more stable capabilities and performs an expansion and improvement of the system from an existing AGV robot.
ISBN:1665443448
9781665443449
DOI:10.1109/IES53407.2021.9593991