[1] A CHIUSO, P FAVARO, H JIN et al. Structure from motion causally integrated over time. IEEE Transactions on Pattern Analysis and Machine Intelligence, 24, 523-535(2002).
[2] D NISTÉR, O NARODITSKY, J BERGEN. Visual odometry, 1, 1-8(2004).
[3] A J DAVISON, I D REID, N D MOLTON et al. Mono SLAM: real-time single camera SLAM. IEEE Transactions on Pattern Analysis and Machine Intelligence, 29, 1052-1067(2007).
[4] D SCARAMUZZA, F FRAUNDORFER. Visual odometry [tutorial]. IEEE Robotics & Automation Magazine, 18, 80-92(2011).
[5] S LI, G LI, L WANG et al. SLAM integrated mobile mapping system in complex urban environments. ISPRS Journal of Photogrammetry and Remote Sensing, 166, 316-332(2020).
[6] Y LI, N BRASCH, Y WANG et al. Structure-SLAM: low-drift monocular SLAM in indoor environments. IEEE Robotics and Automation Letters, 5, 6583-6590(2020).
[7] M R U SAPUTRA, A MARKHAM, N TRIGONI. Visual SLAM and structure from motion in dynamic environments: A survey. ACM Computing Surveys (CSUR), 51, 1-36(2018).
[8] W TAN, H LIU, Z DONG et al. Robust monocular SLAM in dynamic environments, 209-218(2013).
[9] S JI, Z QIN, J SHAN et al. Panoramic SLAM from a multiple fisheye camera rig. ISPRS Journal of Photogrammetry and Remote Sensing, 159, 169-183(2020).
[10] Zhichao ZHANG, H REBECQ, C FORSTER et al. Benefit of large field-of-view cameras for visual odometry, 801-808(2016).
[11] J ENGEL, V KOLTUN, D CREMERS. Direct sparse odometry. IEEE Transactions on Pattern Analysis and Machine Intelligence, 40, 611-625(2017).
[12] H MATSUKI, STUMBERG LVON, V USENKO et al. Omnidirectional DSO: Direct sparse odometry with fisheye cameras. IEEE Robotics and Automation Letters, 3, 3693-3700(2018).
[13] D CARUSO, J ENGEL, D CREMERS. Large-scale direct SLAM for omnidirectional cameras, 141-148(2015).
[14] M LIN, Q CAO, H ZHANG. PVO: Panoramic visual odometry, 491-496(2018).
[15] R MUR-ARTAL, J M M MONTIEL, J D TARDOS. ORB-SLAM: A versatile and accurate monocular SLAM system. IEEE Transactions on Robotics, 31, 1147-1163(2017).
[16] Q FU, H YU, X WANG et al. Fast ORB-SLAM: a fast ORB-SLAM method with coarse-to-fine descriptor independent keypoint matching. arXiv preprint arXiv:, 2020(09870).
[17] V LEPETIT, F MORENO-NOGUER. EPnP: An accurate O(n) solution to the PnP problem. International Journal of Computer Vision, 81, 155-166(2009).
[18] D SCARAMUZZA, A MARTINELLI, R SIEGWART. A flexible technique for accurate omnidirectional camera calibration and structure from motion, 45-45(2006).
[19] M A FISCHLER. RANDOM SAMPLE CONSENSUS: a paradigm for model fitting with applications to image analysis and automated cartography. Readings in Computer Vision, 726-740(1987).
[20] B TRIGGS, P F MCLAUCHLAN, R I HARTLEY et al. Bundle adjustment—a modern synthesis, 298-372(1999).
[21] C CAMPOS, R ELVIRA, J J G RODRÍGUEZ et al. ORB-SLAM3: An accurate open-source library for visual, visual-inertial and multi-map SLAM. arXiv preprint arXiv:, 2020(11898).
