19.4.7.2 Motion Magnification, Micro-Motions

Wadhwa, N.[Neal], Rubinstein, M.[Michael], Durand, F.[Frédo], Freeman, W.T.[William T.],
Phase-based Video Motion Processing,
TOG(32), No. 4, 2013.
PDF File. BibRef 1300

Elgharib, M.A.[Mohamed A.], Hefeeda, M.[Mohamed], Durand, F.[Fredo], Freeman, W.T.[William T.],
Video magnification in presence of large motions,
CVPR15(4119-4127)
IEEE DOI 1510
BibRef

Wadhwa, N., Rubinstein, M., Durand, F.[Fredo], Freeman, W.T.[William T.],
Riesz pyramids for fast phase-based video magnification,
ICCP14(1-10)
IEEE DOI 1411
image sequences BibRef

Rubinstein, M.[Michael], Wadhwa, N.[Neal], Durand, F.[Frédo], Freeman, W.T.[William T.],
Revealing Invisible Changes In The World,
Science(339), No. 6119, February 1, 2013.
WWW Link. BibRef 1302

Liu, C.[Ce], Torralba, A.B.[Antonio B.], Freeman, W.T.[William T.], Durand, F.[Fredo], Adelson, E.H.[Edward H.],
Motion magnification,
TOG(24), No. 3, 2005, pp. 519-526.
PDF File. 1711
BibRef

Fahmy, G.[Gamal], Fahmy, M.F.[Mamdouh F.], Fahmy, O.M.[Omar M.],
Micro-movement magnification in video signals using complex wavelet analysis,
IET-IPR(11), No. 11, November 2017, pp. 986-993.
DOI Link 1711
Reverse of stabilization.
See also Motion magnification. BibRef

Fahmy, O.M.[Omar M.], Fahmy, G.[Gamal], Fahmy, M.F.[Mamdouh F.],
A new video magnification technique using complex wavelets with Radon transform application,
SIViP(12), No. 8, November 2018, pp. 1505-1512.
WWW Link. 1809
BibRef

Al-Naji, A.[Ali], Lee, S.H.[Sang-Heon], Chahl, J.[Javaan],
An efficient motion magnification system for real-time applications,
MVA(29), No. 4, May 2018, pp. 585-600.
WWW Link. 1805
BibRef

Wu, X.[Xiu], Yang, X.Z.[Xue-Zhi], Jin, J.[Jing], Yang, Z.[Zhao],
PCA-based magnification method for revealing small signals in video,
SIViP(12), No. 7, October 2018, pp. 1293-1299.
WWW Link. 1809
BibRef

Xue, B.D.[Bin-Dang], Zheng, S.J.[Shao-Jie], Xue, W.F.[Wen-Fang],
Multi-scale adaptive factors video acceleration magnification,
SP:IC(71), 2019, pp. 36-44.
Elsevier DOI 1901
Video magnification, Complex steerable pyramid, Adaptive magnification factor BibRef

Ngo, A.C.L.[Anh Cat Le], Phan, R.C.W.[Raphael C.W.],
Seeing the Invisible: Survey of Video Motion Magnification and Small Motion Analysis,
Surveys(52), No. 6, October 2019, pp. xx-yy.
DOI Link 2001
Survey, Motion Magnification. Eulerian, motion representation, Motion magnification, Lagrangian, motion extraction, video motion, small motion BibRef

Zhuo, Z.Y.[Zhen-Yu], Zhou, Y.[Yu], Du, L.[Lan], Ren, K.[Ke], Li, Y.[Yi],
A Noise Robust Micro-Range Estimation Method for Precession Cone-Shaped Targets,
RS(13), No. 9, 2021, pp. xx-yy.
DOI Link 2105
Using micro-motion analysis. BibRef

Esmaeili, V.[Vida], Feghhi, M.M.[Mahmood Mohassel], Shahdi, S.O.[Seyed Omid],
Spotting micro-movements in image sequence by introducing intelligent cubic-LBP,
IET-IPR(16), No. 14, 2022, pp. 3814-3830.
DOI Link 2212
motion magnification BibRef

Chen, L.[Li], Peng, C.[Cong], Zhao, B.C.[Bing-Chao],
Novel Multi-Task Learning for Motion Magnification,
CirSysVideo(33), No. 10, October 2023, pp. 5973-5985.
IEEE DOI 2310
BibRef

Zhang, H.L.[Hong-Lei], Zhang, W.P.[Wen-Peng], Liu, Y.X.[Yong-Xiang], Yang, W.[Wei], Yong, S.W.[Shao-Wei],
Scatterer-Level Time-Frequency-Frequency Rate Representation for Micro-Motion Identification,
RS(15), No. 20, 2023, pp. 4917.
DOI Link 2310
BibRef

Han, L.[Lixun], Feng, C.[Cunqian], Hu, X.W.[Xiao-Wei],
Space Targets with Micro-Motion Classification Using Complex-Valued GAN and Kinematically Sifted Methods,
RS(15), No. 21, 2023, pp. 5085.
DOI Link 2311
BibRef

Ren, J.F.[Jian-Fei], Liang, J.[Jia], Wang, H.[Huan], Li, K.M.[Kai-Ming], Luo, Y.[Ying], Zhao, D.T.[Dong-Tao],
A Micro-Motion Parameters Estimation Method for Multi-Rotor Targets without a Prior,
RS(16), No. 8, 2024, pp. 1409.
DOI Link 2405
BibRef

Zhao, Z.X.[Zi-Xuan], Wang, D.Q.[Dong-Qi], Zhao, X.[Xu],
M3Net: Movement Enhancement with Multi-Relation toward Multi-Scale video representation for Temporal Action Detection,
PR(155), 2024, pp. 110702.
Elsevier DOI 2408
BibRef
Earlier:
Movement Enhancement toward Multi-Scale Video Feature Representation for Temporal Action Detection,
ICCV23(13509-13518)
IEEE DOI 2401
Temporal action detection, Temporal action proposal, Video understanding, Feature representation, Multi-scale detection BibRef

Lima, J.A.S.[Jonathan A.S.], Miosso, C.J.[Cristiano J.], Farias, M.C.Q.[Mylène C.Q.],
SynFlowMap: A synchronized optical flow remapping for video motion magnification,
SP:IC(130), 2025, pp. 117203.
Elsevier DOI 2412
Video motion magnification, Optical flow, Remapping BibRef

Bu, L.S.[Lin-Sheng], Chen, D.[Defeng], Fu, T.[Tuo], Cao, H.[Huawei], Chang, W.[Wanyu],
Transformer Architecture for Micromotion Target Detection Based on Multi-Scale Subaperture Coherent Integration,
RS(17), No. 3, 2025, pp. 417.
DOI Link 2502
BibRef

Wu, J.[Jing], Ai, X.F.[Xiao-Feng], Xu, Z.M.[Zhi-Ming], Zhu, Y.Q.[Yi-Qi], Wu, Q.H.[Qi-Hua],
Rapid Micro-Motion Feature Extraction of Multiple Space Targets Based on Improved IRT,
RS(17), No. 3, 2025, pp. 434.
DOI Link 2502
BibRef

Zhang, Y.J.[Yuan-Jie], Gao, T.[Ting], Xie, H.[Hongtu], Liu, H.Z.[Hao-Zong], Ge, M.F.[Meng-Fan], Xu, B.[Bin], Zhu, N.N.[Nan-Nan], Lu, Z.[Zheng],
Narrowband Radar Micromotion Targets Recognition Strategy Based on Graph Fusion Network Constructed by Cross-Modal Attention Mechanism,
RS(17), No. 4, 2025, pp. 641.
DOI Link 2502
BibRef

Wang, X.[Xing], Yang, D.[Degui], Zhao, Z.C.[Zhi-Chen],
Multi-Dimensional Parameter-Estimation Method for a Spatial Target Based on the Micro-Range Decomposition of a High-Resolution Range Profile,
RS(17), No. 7, 2025, pp. 1294.
DOI Link 2504
BibRef

Wang, F.[Fei], Guo, D.[Dan], Li, K.[Kun], Zhong, Z.[Zhun], Wang, M.[Meng],
Frequency Decoupling for Motion Magnification Via Multi-Level Isomorphic Architecture,
CVPR24(18984-18994)
IEEE DOI Code:
WWW Link. 2410
Representation learning, Filters, Virtual machine monitors, Shape, Noise, Robustness, Frequency Decoupling BibRef

Singh, J.[Jasdeep], Murala, S.[Subrahmanyam], Kosuru, G.S.R.[G. Sankara Raju],
Multi Domain Learning for Motion Magnification,
CVPR23(13914-13923)
IEEE DOI 2309
BibRef

Singh, J.[Jasdeep], Murala, S.[Subrahmanyam], Kosuru, G.S.R.[G. Sankara Raju],
Lightweight Network For Video Motion Magnification,
WACV23(2040-2049)
IEEE DOI 2302
Deep learning, Training, Computational modeling, Lighting, Medical services, Distortion, Manipulators BibRef

Takeda, S., Okami, K., Mikami, D., Isogai, M., Kimata, H.,
Jerk-Aware Video Acceleration Magnification,
CVPR18(1769-1777)
IEEE DOI 1812
Acceleration, Image color analysis, Time series analysis, Trajectory, Cameras, Sports, Neuroscience BibRef

Byung-Ki, K.[Kwon], Hyun-Bin, O.[Oh], Jun-Seong, K.[Kim], Ha, H.W.[Hyun-Woo], Oh, T.H.[Tae-Hyun],
Learning-based Axial Video Motion Magnification,
ECCV24(LIV: 179-195).
Springer DOI 2412
BibRef

Oh, T.H.[Tae-Hyun], Jaroensri, R.[Ronnachai], Kim, C.[Changil], Elgharib, M.[Mohamed], Durand, F.[Frédo], Freeman, W.T.[William T.], Matusik, W.[Wojciech],
Learning-Based Video Motion Magnification,
ECCV18(II: 663-679).
Springer DOI 1810
BibRef

Verma, M.[Manisha], Raman, S.[Shanmuganathan],
Interest Region Based Motion Magnification,
CIAP17(I:27-39).
Springer DOI 1711
BibRef

Chapter on Motion Analysis -- Low-Level, Image Level Analysis, Mosaic Generation, Super Resolution, Shape from Motion continues in
Aliasing, Anti-Aliasing .