17.1.3.5.2 Walking, Gait Recognition, University of Southampton

Chapter Contents (Back)
Walking. Cyclic Motion. Gait Recognition. The Southampton group under Mark Nixon.
See also University of Southampton.

Hayfron-Acquah, J.B.[James B.], Nixon, M.S.[Mark S.], Carter, J.N.[John N.],
Automatic Gait Recognition by Symmetry Analysis,
PRL(24), No. 13, September 2003, pp. 2175-2183.
Elsevier DOI 0307
BibRef
Earlier: AVBPA01(272).
Springer DOI 0310
BibRef
Earlier:
Human identification by spatio-temporal symmetry,
ICPR02(I: 632-635).
IEEE DOI 0211
BibRef
Earlier:
Recognising Human and Animal Movement by Symmetry,
ICIP01(III: 290-293).
IEEE DOI 0108
BibRef

Arbab-Zavar, B.[Banafshe], Bouchrika, I.[Imed], Carter, J.N.[John N.], Nixon, M.S.[Mark S.],
On Supervised Human Activity Analysis for Structured Environments,
ISVC10(III: 625-634).
Springer DOI 1011
BibRef

Bouchrika, I., Goffredo, M.[Michela], Carter, J.N.[John N.], Nixon, M.S.[Mark S.],
Covariate Analysis for View-Point Independent Gait Recognition,
ICB09(990-999).
Springer DOI 0906
BibRef

Goffredo, M.[Michela], Carter, J.N.[John N.], Nixon, M.S.[Mark S.],
Front-view Gait Recognition,
BTAS08(1-6).
IEEE DOI 0809
BibRef

Seely, R.D.[Richard D.], Samangooei, S.[Sina], Middleton, L.[Lee], Carter, J.N.[John N.], Nixon, M.S.[Mark S.],
The University of Southampton Multi-Biometric Tunnel and introducing a novel 3D gait dataset,
BTAS08(1-6).
IEEE DOI 0809
Dataset, Gait Recognition. BibRef

Goffredo, M.[Michela], Seely, R.D.[Richard D.], Carter, J.N.[John N.], Nixon, M.S.[Mark S.],
Markerless view independent gait analysis with self-camera calibration,
FG08(1-6).
IEEE DOI 0809
BibRef

Sharman, K.J., Nixon, M.S.[Mark S.], Carter, J.N.[John N.],
Extraction and description of 3D (articulated) moving objects,
3DPVT02(664-667).
IEEE DOI 0206
BibRef

Cunado, D., Nash, J.M., Nixon, M.S., Carter, J.N.,
Gait Extraction and Description by Evidence-Gathering,
AVBPA99(xx-yy). BibRef 9900

Nash, J.M., Carter, J.N., Nixon, M.S.,
Extraction of Moving Articulated-objects by Evidence Gathering,
BMVC98(xx-yy). BibRef 9800

Foster, J.P.[Jeff P.], Nixon, M.S.[Mark S.], Prügel-Bennett, A.[Adam],
Automatic gait recognition using area-based metrics,
PRL(24), No. 14, October 2003, pp. 2489-2497.
Elsevier DOI 0307
BibRef
Earlier:
New Area Based Metrics for Automatic Gait Recognition,
BMVC01(Poster Session 1).
HTML Version. University of Southampton 0110
BibRef
And:
New Area Based Metrics for Gait Recognition,
AVBPA01(312).
Springer DOI 0310
BibRef

Yoo, J.H.[Jang-Hee], Nixon, M.S., Harris, C.J.,
Model-driven statistical analysis of human gait motion,
ICIP02(I: 285-288).
IEEE DOI 0210
BibRef
And:
Extracting human gait signatures by body segment properties,
Southwest02(35-39).
IEEE Top Reference. 0208
BibRef

Mowbray, S.D.[Stuart D.], Nixon, M.S.[Mark S.],
Extraction and recognition of periodically deforming objects by continuous, spatio-temporal shape description,
CVPR04(II: 895-901).
IEEE DOI 0408
BibRef
Earlier:
Automatic Gait Recognition via Fourier Descriptors of Deformable Objects,
AVBPA03(566-573).
Springer DOI 0310
BibRef

Spencer, N.M., Carter, J.N.,
Towards Pose Invariant Gait Reconstruction,
ICIP05(III: 261-264).
IEEE DOI 0512
BibRef

Guo, B.F.[Bao-Feng], Nixon, M.S.,
Gait Feature Subset Selection by Mutual Information,
SMC-A(39), No. 1, January 2009, pp. 36-46.
IEEE DOI 0901
BibRef
Earlier: BTAS07(1-6).
IEEE DOI 0709
BibRef

Jung, S.U.[Sung-Uk], Nixon, M.S.[Mark S.],
Heel strike detection based on human walking movement for surveillance analysis,
PRL(34), No. 8, June 2013, pp. 895-902.
Elsevier DOI 1305
BibRef
Earlier:
Detection Human Motion with Heel Strikes for Surveillance Analysis,
CAIP11(I: 9-16).
Springer DOI 1109
Heel strike detection; Gait trajectory model; Walking direction; Gait BibRef

Sun, Y.[Yan], Hare, J.S.[Jonathon S.], Nixon, M.S.[Mark S.],
Detecting heel strikes for gait analysis through acceleration flow,
IET-CV(12), No. 5, August 2018, pp. 686-692.
DOI Link 1807
BibRef

Kim, Y.H.[Young Hwi], Nam, S.[Seonghyeon], Kim, S.J.[Seon Joo],
Temporally smooth online action detection using cycle-consistent future anticipation,
PR(116), 2021, pp. 107954.
Elsevier DOI 2106
Online action detection, Cycle-consistency, Temporal smoothing, Video understanding BibRef

Mahpod, S.[Shahar], Gaash, N.[Noam], Hoffman, H.[Hay], Ben-Artzi, G.[Gil],
CTrGAN: Cycle Transformers GAN for Gait Transfer,
WACV23(371-381)
IEEE DOI 2302
Measurement, Training, Legged locomotion, Detectors, Transformers, Algorithms: Computational photography, body pose BibRef


Hu, H.Z.[Hua-Zhang], Dong, S.[Sixun], Zhao, Y.Q.[Yi-Qun], Lian, D.Z.[Dong-Ze], Li, Z.X.[Zheng-Xin], Gao, S.H.[Sheng-Hua],
TransRAC: Encoding Multi-scale Temporal Correlation with Transformers for Repetitive Action Counting,
CVPR22(18991-19000)
IEEE DOI 2210
Degradation, Correlation, Codes, Annotations, Face recognition, Pose estimation, Action and event recognition, Pose estimation and tracking BibRef

Atanbori, J.[John], Cowling, P.[Peter], Murray, J.[John],
Analysis of Bat Wing Beat Frequency Using Fourier Transform,
CAIP13(II:370-377).
Springer DOI 1311
BibRef

Matovski, D.S., Nixon, M.S., Mahmoodi, S., Mansfield, T.,
On including quality in applied automatic gait recognition,
ICPR12(3272-3275).
WWW Link. 1302
BibRef

Bouchrika, I., Carter, J.N., Nixon, M.S., Morzinger, R., Thallinger, G.,
Using Gait Features for Improving Walking People Detection,
ICPR10(3097-3100).
IEEE DOI 1008
BibRef

Bazin, A.I.[Alex I.], Nixon, M.S.[Mark S.],
Gait Verification Using Probabilistic Methods,
WACV05(I: 60-65).
IEEE DOI 0502
BibRef

Nixon, M.S., Carter, J.N.,
Advances in automatic gait recognition,
AFGR04(139-144).
IEEE DOI 0411
BibRef

Bouchrika, I.[Imed], Nixon, M.S.[Mark S.],
Exploratory factor analysis of gait recognition,
FG08(1-6).
IEEE DOI 0809
BibRef
And:
Gait recognition by dynamic cues,
ICPR08(1-4).
IEEE DOI 0812
BibRef
Earlier:
Model-Based Feature Extraction for Gait Analysis and Recognition,
MIRAGE07(150-160).
Springer DOI 0703
BibRef

Wagg, D.K., Nixon, M.S.,
On automated model-based extraction and analysis of gait,
AFGR04(11-16).
IEEE DOI 0411
BibRef

Al-Huseiny, M.S.[Muayed S.], Mahmoodi, S.[Sasan], Nixon, M.S.[Mark S.],
Robust Rigid Shape Registration Method Using a Level Set Formulation,
ISVC10(II: 252-261).
Springer DOI 1011
BibRef
And:
Gait Learning-Based Regenerative Model: A Level Set Approach,
ICPR10(2644-2647).
IEEE DOI 1008
BibRef
Earlier:
Level Set Gait Analysis for Synthesis and Reconstruction,
ISVC09(II: 377-386).
Springer DOI 0911
BibRef

Chapter on Motion -- Human Motion, Surveillance, Tracking, Surveillance, Activities continues in
Cyclic Motion, Periodic Motion, Symmetric, for Walking and Gait Recognition .


Last update:Mar 16, 2024 at 20:36:19