Vision-based target detection for AGV docking
Nowadays, with the development of science and technology, there are more and more application scenarios for Automatic Guided Vehicles (AGV), which has an irreplaceable position in the development of intelligent manufacturing. A widely used scenario is that AGV replaces manpower to perform pickup/del...
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2022
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sg-ntu-dr.10356-1560312023-07-04T17:47:24Z Vision-based target detection for AGV docking Lin, Jingwen Xie Lihua School of Electrical and Electronic Engineering ELHXIE@ntu.edu.sg Engineering::Computer science and engineering::Computer systems organization Engineering::Computer science and engineering::Software Nowadays, with the development of science and technology, there are more and more application scenarios for Automatic Guided Vehicles (AGV), which has an irreplaceable position in the development of intelligent manufacturing. A widely used scenario is that AGV replaces manpower to perform pickup/delivery tasks in factory floors and warehouses. AGVs are required to navigate accurately and perform precise docking operations. In the docking process, positioning and target identification are vital technologies. Many methods have been developed to solve this problem, such as line patrol, UWB, SLAM, etc. This dissertation aims to design a perpendicular docking system with an accuracy of ~2cm. Pure 2D LIDAR docking technology has the shortcoming of low target recognition accuracy because the point cloud scanned by LIDAR can only tell the shape information of the objects. When the objects are similar in shape, it will cause false detection. To improve the accuracy of target detection, vision-based object detection is used to assist in identification. The camera can obtain more semantic information, which can well enhance the stability of detection. By combining the detection results of the camera with the point cloud of LIDAR, the docking system can be more robust. Vision-based object detection has traditional algorithms (such as SIFT, ORB) and learning-based methods. Learning-based object detection outperforms the traditional ones in accuracy. However, considering AGV’s low-end GPU, standard CNN models can’t operate on such devices for their huge computing requirement. Hence, lightweight networks will be alternative to perform real-time object detection with lower computational cost. In this project, a lightweight model, SSD-MobileNetV3 will be designed and trained according to the specific objects inside our lab environment. Then the model will be applied to the AGV to test the perpendicular docking. The final result achieves an accuracy of ~1cm. Master of Science (Computer Control and Automation) 2022-03-31T06:22:52Z 2022-03-31T06:22:52Z 2022 Thesis-Master by Coursework Lin, J. (2022). Vision-based target detection for AGV docking. Master's thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/156031 https://hdl.handle.net/10356/156031 en application/pdf Nanyang Technological University |
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Engineering::Computer science and engineering::Computer systems organization Engineering::Computer science and engineering::Software Lin, Jingwen Vision-based target detection for AGV docking |
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Nowadays, with the development of science and technology, there are more and more application scenarios for Automatic Guided Vehicles (AGV), which has an irreplaceable position in the development of intelligent manufacturing. A widely used scenario is that AGV replaces manpower to perform pickup/delivery tasks in factory floors and warehouses. AGVs are required to navigate accurately and perform precise docking operations. In the docking process, positioning and target identification are vital technologies. Many methods have been developed to solve this problem, such as line patrol, UWB, SLAM, etc.
This dissertation aims to design a perpendicular docking system with an accuracy of ~2cm. Pure 2D LIDAR docking technology has the shortcoming of low target recognition accuracy because the point cloud scanned by LIDAR can only tell the shape information of the objects. When the objects are similar in shape, it will cause false detection. To improve the accuracy of target detection, vision-based object detection is used to assist in identification. The camera can obtain more semantic information, which can well enhance the stability of detection. By combining the detection results of the camera with the point cloud of LIDAR, the docking system can be more robust.
Vision-based object detection has traditional algorithms (such as SIFT, ORB) and learning-based methods. Learning-based object detection outperforms the traditional ones in accuracy. However, considering AGV’s low-end GPU, standard CNN models can’t operate on such devices for their huge computing requirement. Hence, lightweight networks will be alternative to perform real-time object detection with lower computational cost. In this project, a lightweight model, SSD-MobileNetV3 will be designed and trained according to the specific objects inside our lab environment. Then the model will be applied to the AGV to test the perpendicular docking. The final result achieves an accuracy of ~1cm. |
| author2 |
Xie Lihua |
| author_facet |
Xie Lihua Lin, Jingwen |
| format |
Thesis-Master by Coursework |
| author |
Lin, Jingwen |
| author_sort |
Lin, Jingwen |
| title |
Vision-based target detection for AGV docking |
| title_short |
Vision-based target detection for AGV docking |
| title_full |
Vision-based target detection for AGV docking |
| title_fullStr |
Vision-based target detection for AGV docking |
| title_full_unstemmed |
Vision-based target detection for AGV docking |
| title_sort |
vision-based target detection for agv docking |
| publisher |
Nanyang Technological University |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/156031 |
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