Robust regression in extrinsic calibration between camera and single line scan laser rangefinder
説明
This paper presents an improvement for error reduction of the cost function for non-linear optimization of extrinsic parameters estimation between single line scan LiDAR and RGB camera. The non-linear optimization utilizes a least square scheme by assigning equal weights to all LiDAR measurement points. With robust regression, we used all LiDAR measurement points and removed RANSAC outlier removal with a weighting scheme dependent on the defined geometric constraint. The methods aims to minimize the error from the inaccuracy of the LiDAR measurement points using robust regression with M-estimator. The methods are tested with 100 random trials with noise magnitude from 5 to 40mm and a 10 percent chance of outliers of 3 times the normal noise magnitude. The results show that M-estimator is more resistant to noise than current state of art.
収録刊行物
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- 2017 8th International Conference of Information and Communication Technology for Embedded Systems (IC-ICTES)
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2017 8th International Conference of Information and Communication Technology for Embedded Systems (IC-ICTES) 1-5, 2017-05-01
IEEE
