Abstract
With rapid advancements in artificial intelligence and mobile robots, some of the tedious yet simple jobs in modern libraries, like book accessing and returning (BAR) operations that had been fulfilled manually before, could be undertaken by robots. Due to the limited accuracies of the existing positioning and navigation (P&N) technologies and the operational errors accumulated within the robot P&N process, however, most of the current robots are not able to fulfill such high-precision operations. To address these practical issues, we propose, for the first time (to the best of our knowledge), to combine the binocular vision and Quick Response (QR) code identification techniques together to improve the robot P&N accuracies, and then construct an autonomous library robot for high-precision BAR operations. Specifically, the binocular vision system is used for dynamic digital map construction and autonomous P&N, as well as obstacle identification and avoiding functions, while the QR code identification technique is responsible for both robot operational error elimination and robotic arm BAR operation determination. Both simulations and experiments are conducted to verify the effectiveness of the proposed technique combination, as well as the constructed robot. Results show that such a technique combination is effective and robust, and could help to significantly improve the P&N and BAR operation accuracies, while reducing the BAR operation time. The implemented autonomous robot is fully-autonomous and cost-effective, and may find applications far beyond libraries with only sophisticated technologies employed.
Highlights
With the rapid advancement of artificial intelligence, robots are playing an increasingly important role in both industry and daily routines [1]
The robot body fixed on the motion platform is comprised of the inertial navigation system, the binocular vision system, and the Quick Response (QR) code reader, as well as two robotic arms fixed on a lifting rod, and it is utilized to realize the book accessing and returning (BAR) operations
We report an autonomous mobile robot to fulfill the high-precision BAR operations for modern libraries
Summary
With the rapid advancement of artificial intelligence, robots are playing an increasingly important role in both industry and daily routines [1]. While the QR code identification technique is used to identify those QR code labels, and access their contents for both robot operational error eliminations and robotic arm BAR operation calculations With those two technologies working together, the robot is able to establish a high-precision library digital map, and identify and avoid those obstacles to fulfil the real-time autonomous route-planning functions. By accessing the QR code labels, it is able to update the digital map frequently to eliminate the errors accumulated during its P&N process and, realize the high-precision BAR operations Both simulations and experiments have been conducted to verify the effectiveness of such a technology combination and the robot functionalities in different cases.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
