The selection of the optimal baseline in the front-view monocular vision system

Bincheng Xiong; Jun Zhang; Daimeng Zhang; Xiaomao Liu; Jinwen Tian

doi:10.1117/12.2283470

8 March 2018 The selection of the optimal baseline in the front-view monocular vision system

Bincheng Xiong, Jun Zhang, Daimeng Zhang, Xiaomao Liu, Jinwen Tian

Proceedings Volume 10609, MIPPR 2017: Pattern Recognition and Computer Vision; 106090F (2018) https://doi.org/10.1117/12.2283470
Event: Tenth International Symposium on Multispectral Image Processing and Pattern Recognition (MIPPR2017), 2017, Xiangyang, China

Abstract

In the front-view monocular vision system, the accuracy of solving the depth field is related to the length of the inter-frame baseline and the accuracy of image matching result. In general, a longer length of the baseline can lead to a higher precision of solving the depth field. However, at the same time, the difference between the inter-frame images increases, which increases the difficulty in image matching and the decreases matching accuracy and at last may leads to the failure of solving the depth field. One of the usual practices is to use the tracking and matching method to improve the matching accuracy between images, but this algorithm is easy to cause matching drift between images with large interval, resulting in cumulative error in image matching, and finally the accuracy of solving the depth field is still very low. In this paper, we propose a depth field fusion algorithm based on the optimal length of the baseline. Firstly, we analyze the quantitative relationship between the accuracy of the depth field calculation and the length of the baseline between frames, and find the optimal length of the baseline by doing lots of experiments; secondly, we introduce the inverse depth filtering technique for sparse SLAM, and solve the depth field under the constraint of the optimal length of the baseline. By doing a large number of experiments, the results show that our algorithm can effectively eliminate the mismatch caused by image changes, and can still solve the depth field correctly in the large baseline scene. Our algorithm is superior to the traditional SFM algorithm in time and space complexity. The optimal baseline obtained by a large number of experiments plays a guiding role in the calculation of the depth field in front-view monocular.

Citation Download Citation

Bincheng Xiong, Jun Zhang, Daimeng Zhang, Xiaomao Liu, and Jinwen Tian "The selection of the optimal baseline in the front-view monocular vision system", Proc. SPIE 10609, MIPPR 2017: Pattern Recognition and Computer Vision, 106090F (8 March 2018); https://doi.org/10.1117/12.2283470

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KEYWORDS

Image segmentation

Cameras

Imaging systems

Error analysis

Image fusion

Image resolution

Computing systems

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