R.T.H.S.K. Karunachandra scite author profile

R.T.H.S.K. Karunachandra

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Binocular Vision-Based Intelligent 3-D Perception for Robotics Application

Karunachandra¹,

Herath²

2020

IJSRP

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Vision-based robotics has been the subject of several research contributions in the area of vision and control. Vision technology is becoming a pioneer in the most common applications such as localization, automated map creation, autonomous navigation, mapping analysis, or risk pattern prediction. The Stereo applications or programs use pairs of 2-D images as inputs and generate reconstructed 3-D imagery by locating the matching points. This paper introduces a method to the development of an algorithm of intelligent 3-D view reconstruction using the binocular vision for the robotic applications. The proposed system consists of two identical colour cameras and cameras were mounted as one stereo camera. 3-D reconstruction and visualization were performed according to the pair of 2-D images. Calibration, multi-view image acquisition, the stereo rectification process, and the disparity process were discussed in Section II. Real-time captured images and stereo image from Middlebury Stereo Datasets were used to test the system and verify results in Section III.

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Binocular Vision-Based Intelligent 3-D Perception for Robotics Application

Karunachandra¹,

Herath²

2021

Preprint

View full text Add to dashboard Cite

Vision-based robotics has been the subject of several research contributions in the area of vision and control. Vision technology is becoming a pioneer in the most common applications such as localization, automated map creation, autonomous navigation, mapping analysis, or risk pattern prediction. The Stereo applications or programs use pairs of 2-D images as inputs and generate reconstructed 3-D imagery by locating the matching points. This paper introduces a method to the development of an algorithm of intelligent 3-D view reconstruction using binocular vision for robotic applications. The proposed system consists of two identical colour cameras and cameras were mounted as one stereo camera. 3-D reconstruction and visualization were performed according to the pair of 2-D images. Calibration, multi-view image acquisition, the stereo rectification process, and the disparity process were discussed in Sect. 2. Real-time captured images and stereo images from Middlebury Stereo Datasets were used to test the system and verify results in Sect. 3.

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