Automated person recognition by walking and running via model-based approaches
Automated person recognition by walking and running via model-based approaches
Gait enjoys advantages over other biometrics in that it can be perceived from a distance and is difficult to disguise. Current approaches are mostly statistical and concentrate on walking only. By analysing leg motion we show how we can recognise people not only by the walking gait, but also by the running gait. This is achieved by either of two new modelling approaches which employ coupled oscillators and the biomechanics of human locomotion as the underlying concepts. These models give a plausible method for data reduction by providing estimates of the inclination of the thigh and of the leg, from the image data.
Both approaches derive a phase-weighted Fourier description gait signature by automated non-invasive means. One approach is completely automated whereas the other requires specification of a single parameter to distinguish between walking and running. Results show that both gaits are potential biometrics,with running being more potent. By its basis in evidence gathering, this new technique can tolerate noise and low resolution.
biometrics, gait, model-based, coupled oscillator, bilateral symmetry, evidence gathering
1057-1072
Yam, ChewYean
79143266-5774-4a7f-be45-0f3ff669acca
Nixon, Mark S.
2b5b9804-5a81-462a-82e6-92ee5fa74e12
Carter, John N.
e05be2f9-991d-4476-bb50-ae91606389da
May 2004
Yam, ChewYean
79143266-5774-4a7f-be45-0f3ff669acca
Nixon, Mark S.
2b5b9804-5a81-462a-82e6-92ee5fa74e12
Carter, John N.
e05be2f9-991d-4476-bb50-ae91606389da
Yam, ChewYean, Nixon, Mark S. and Carter, John N.
(2004)
Automated person recognition by walking and running via model-based approaches.
Pattern Recognition, 37 (5), .
(doi:10.1016/j.patcog.2003.09.012).
Abstract
Gait enjoys advantages over other biometrics in that it can be perceived from a distance and is difficult to disguise. Current approaches are mostly statistical and concentrate on walking only. By analysing leg motion we show how we can recognise people not only by the walking gait, but also by the running gait. This is achieved by either of two new modelling approaches which employ coupled oscillators and the biomechanics of human locomotion as the underlying concepts. These models give a plausible method for data reduction by providing estimates of the inclination of the thigh and of the leg, from the image data.
Both approaches derive a phase-weighted Fourier description gait signature by automated non-invasive means. One approach is completely automated whereas the other requires specification of a single parameter to distinguish between walking and running. Results show that both gaits are potential biometrics,with running being more potent. By its basis in evidence gathering, this new technique can tolerate noise and low resolution.
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Published date: May 2004
Keywords:
biometrics, gait, model-based, coupled oscillator, bilateral symmetry, evidence gathering
Identifiers
Local EPrints ID: 38690
URI: http://eprints.soton.ac.uk/id/eprint/38690
ISSN: 0031-3203
PURE UUID: d610bea7-4d54-4e1f-8ffa-f87a3133e647
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Date deposited: 14 Jun 2006
Last modified: 16 Mar 2024 02:34
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Author:
ChewYean Yam
Author:
John N. Carter
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