Journal of Fudan University(Natural Science), Volume. 64, Issue 3, 350(2025)
UAV Target Tracking Algorithm Based on Camera Motion Compensation
[1] [1] DANELLJAN M, HGER G, KHAN S F, et al. Learning spatially regularized correlation filters for visual tracking[C]//Proceedings of the IEEE International Conference on Computer Vision. Santiago, Chile: IEEE, 2015: 4310-4318.
[2] [2] BERTINETTO L, VALMADRE J, GOLODETZ S, et al. Staple: Complementary learners for real-time tracking[C]//Proceedings of the IEEE Conference on Computer Vision And Pattern Recognition. Las Vegas, USA: IEEE, 2016: 1401-1409.
[3] [3] KIANI GALOOGAHI H, FAGG A, LUCEY S. Learning background-aware correlation filters for visual tracking[C]//Proceedings of the IEEE International Conference on Computer Vision. Venice, Italy: IEEE, 2017: 1135-1143.
[4] [4] DANELLJAN M, BHAT G, KHAN S F, et al. ECO: Efficient convolution operators for tracking[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. Honolulu, USA: IEEE, 2017: 6638-6646.
[5] [5] LI F, TIAN C, ZUO W, et al. Learning spatial-temporal regularized correlation filters for visual tracking[C]//Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition. Salt Lake City, USA: IEEE, 2018: 4904-4913.
[6] [6] HUANG Z, FU C, LI Y, et al. Learning aberrance repressed correlation filters for real-time UAV tracking[C]//Proceedings of the IEEE/CVF International Conference on Computer Vision. Seoul, Republic of Korea: IEEE, 2019: 2891-2900.
[7] [7] DAI K, WANG D, LU H, et al. Visual tracking via adaptive spatially-regularized correlation filters[C]//Proceedings of IEEE/CVF Conference on Computer Vision and Pattern Recognition. Long Beach, USA: IEEE, 2019: 4670-4679.
[8] [8] KALAL Z, MIKOLAJCZYK K, MATAS J. Tracking-learning-detection[J].IEEE Transactions on Pattern Analysis and Machine Intelligence, 2011,34(7): 1409-1422.
[9] [9] MA CHAO, YANG XIAOKANG, ZHANG CHONGYANG, et al. Long-term correlation tracking[C]//IEEE Conference on Computer Vision and Pattern Recognition. Boston, USA: IEEE, 2015: 5388.
[10] [10] DANELLJAN M, HGER G, KHAN S F, et al. Accurate scale estimation for robust visual tracking[C]//British Machine Vision Conference. Nottingham, UK: BMVC, 2014: 1-11.
[11] [11] LI Y, ZHU J. A scale adaptive kernel correlation filter tracker with feature integration[C]//European Conference on Computer Vision. Zrich, Switzerland: ECCV, 2014: 254-265.
[12] [12] DANELLJAN M, HGER G, KHAN S F, et al. Discriminative scale space tracking[J].IEEE Transactions on Pattern Analysis and Machine Intelligence, 2016,39(8): 1561-1575.
[13] [13] MUELLER M, SMITH N, GHANEM B. A benchmark and simulator for uav tracking[C]//Computer Vision-ECCV 2016: 14th European Conference. Amsterdam, The Netherlands, October 11-14, 2016, Proceedings, Part I. Amsterdam, the Netherlands: Springer International Publishing, 2016: 445-461.
[14] [14] LI Y, FU C, DING F, et al. AutoTrack: Towards high-performance visual tracking for UAV with automatic spatio-temporal regularization[C]//Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition. Seattle, USA: IEEE, 2020: 11923-11932.
[15] [15] HENRIQUES J F, CASEIRO R, MARTINS P, et al. High-speed tracking with kernelized correlation filters[J].IEEE Transactions on pattern Analysis and Machine Intelligence, 2014,37(3): 583-596.
Get Citation
Copy Citation Text
MA Haoran, HUANG He, GAO Tao, WANG Huifeng, ZHANG Ke. UAV Target Tracking Algorithm Based on Camera Motion Compensation[J]. Journal of Fudan University(Natural Science), 2025, 64(3): 350
