Multimodal Object Detection using Depth and Image Data for Manufacturing Parts

November 13, 2024 Β· Declared Dead Β· πŸ› Volume 2: Functional Devices/Bioinspired Structures; Sustainability; Semiconductor Manufacturing; Surface Engineering; Clean Energy and E-Mobility Manufacturing; Machining and Deformation Processes; Welding and Joining Processes of Advanced Materials and Structures; Equipment Design, Control and Aut

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Authors Nazanin Mahjourian, Vinh Nguyen arXiv ID 2411.09062 Category cs.CV: Computer Vision Cross-listed cs.AI, cs.RO Citations 12 Venue Volume 2: Functional Devices/Bioinspired Structures; Sustainability; Semiconductor Manufacturing; Surface Engineering; Clean Energy and E-Mobility Manufacturing; Machining and Deformation Processes; Welding and Joining Processes of Advanced Materials and Structures; Equipment Design, Control and Aut Last Checked 4 months ago
Abstract
Manufacturing requires reliable object detection methods for precise picking and handling of diverse types of manufacturing parts and components. Traditional object detection methods utilize either only 2D images from cameras or 3D data from lidars or similar 3D sensors. However, each of these sensors have weaknesses and limitations. Cameras do not have depth perception and 3D sensors typically do not carry color information. These weaknesses can undermine the reliability and robustness of industrial manufacturing systems. To address these challenges, this work proposes a multi-sensor system combining an red-green-blue (RGB) camera and a 3D point cloud sensor. The two sensors are calibrated for precise alignment of the multimodal data captured from the two hardware devices. A novel multimodal object detection method is developed to process both RGB and depth data. This object detector is based on the Faster R-CNN baseline that was originally designed to process only camera images. The results show that the multimodal model significantly outperforms the depth-only and RGB-only baselines on established object detection metrics. More specifically, the multimodal model improves mAP by 13% and raises Mean Precision by 11.8% in comparison to the RGB-only baseline. Compared to the depth-only baseline, it improves mAP by 78% and raises Mean Precision by 57%. Hence, this method facilitates more reliable and robust object detection in service to smart manufacturing applications.
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