Laser & Optoelectronics Progress, Volume. 60, Issue 3, 0312021(2023)
A High-Precision Integrated Calibration Method for Position and Attitude of Visual-Inertial System
[1] Zhong R Y, Xu X, Klotz E et al. Intelligent manufacturing in the context of industry 4.0: a review[J]. Engineering, 3, 616-630(2017).
[2] Lim Y, Gardi A, Pongsakornsathien N et al. Experimental characterisation of eye-tracking sensors for adaptive human-machine systems[J]. Measurement, 140, 151-160(2019).
[3] Boru B, Erin K. Novel technique for control of industrial robots with wearable and contactless technologies[J]. Measurement, 192, 110850(2022).
[4] Li P L, Qin T, Hu B T et al. Monocular visual-inertial state estimation for mobile augmented reality[C], 11-21(2017).
[5] Liang Q, Liu M. A tightly coupled VLC-inertial localization system by EKF[J]. IEEE Robotics and Automation Letters, 5, 3129-3136(2020).
[6] Campos C, Elvira R, Rodríguez J J G et al. ORB-SLAM3: an accurate open-source library for visual, visual-inertial, and multimap SLAM[J]. IEEE Transactions on Robotics, 37, 1874-1890(2021).
[7] Guo J H, Chen X W, Wang Y. A review of visual inertial SLAM research development[J]. Fire Control & Command Control, 46, 1-8(2021).
[8] Yousif K, Bab-Hadiashar A, Hoseinnezhad R. An overview to visual odometry and visual SLAM: applications to mobile robotics[J]. Intelligent Industrial Systems, 1, 289-311(2015).
[9] Male J, Martinez-Hernandez U. Recognition of human activity and the state of an assembly task using vision and inertial sensor fusion methods[C], 919-924(2021).
[10] Maxudov N, Ercan A O, Erdem A T. Effect of camera-IMU displacement calibration error on tracking performance[C], 4476-4480(2015).
[11] Huang G Q. Visual-inertial navigation: a concise review[C], 9572-9582(2019).
[12] Furgale P, Rehder J, Siegwart R. Unified temporal and spatial calibration for multi-sensor systems[C], 1280-1286(2013).
[13] Eckenhoff K, Geneva P, Bloecker J et al. Multi-camera visual-inertial navigation with online intrinsic and extrinsic calibration[C], 3158-3164(2019).
[14] Liu Y, Wang F, Zhang W et al. Online self-calibration initialization for multi-camera visual-inertial SLAM[C], 192-199(2018).
[15] Ouyang C G, Shi S, You Z et al. Extrinsic parameter calibration method for a visual/inertial integrated system with a predefined mechanical interface[J]. Sensors, 19, 3086(2019).
[16] Jia J, Zhu F, Zhang X H. Visual and inertial sensors space calibration method using total station and calibration field[J]. Journal of Navigation and Positioning, 8, 6-13(2020).
[17] Zhou Y X, Li S Y, Xia C X et al. Online visual-inertial extrinsic calibration utilizing GNSS measurements for vehicle applications[J]. IEEE Sensors Journal, 22, 4545-4557(2022).
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Keyao Ma, Yongjie Ren, Jiarui Lin, Zhiyuan Niu, Jigui Zhu. A High-Precision Integrated Calibration Method for Position and Attitude of Visual-Inertial System[J]. Laser & Optoelectronics Progress, 2023, 60(3): 0312021
Category: Instrumentation, Measurement and Metrology
Received: Oct. 24, 2022
Accepted: Nov. 8, 2022
Published Online: Feb. 22, 2023
The Author Email: Ren Yongjie (yongjieren@tju.edu.cn), Zhu Jigui (jiguizhu@tju.edu.cn)