Automatic gait recognition using area-based metrics

A novel technique for analysing moving shapes is presented in an example application to automatic gait recognition. The technique uses masking functions to measure area as a time varying signal from a sequence of silhouettes of a walking subject. Essentially, this combines the simplicity of a baseline area measure with the specificity of the selected (masked) area. The dynamic temporal signal is used as a signature for automatic gait recognition. The approach is tested on the largest extant gait database, consisting of 114 subjects (filmed under laboratory conditions). Though individual masks have limited discriminatory ability, a correct classification rate of over 75% was achieved by combining information from different area masks. Knowledge of the leg with which the subject starts a gait cycle is shown to improve the recognition rate from individual masks, but has little influence on the recognition rate achieved from combining masks. Finally, this technique is used to attempt to discriminate between male and female subjects. The technique is presented in basic form: future work can improve implementation factors such as using better data fusion and classifiers with potential to increase discriminatory capability.

[1]  G. Mather,et al.  Gender discrimination in biological motion displays based on dynamic cues , 1994, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[2]  M. Nixon,et al.  Automatic Gait Recognition via Model-Based Evidence Gathering , 1999 .

[3]  Robert T. Collins,et al.  Silhouette-based human identification from body shape and gait , 2002, Proceedings of Fifth IEEE International Conference on Automatic Face Gesture Recognition.

[4]  J E Cutting,et al.  A biomechanical invariant for gait perception. , 1978, Journal of experimental psychology. Human perception and performance.

[5]  Juyang Weng,et al.  Using Discriminant Eigenfeatures for Image Retrieval , 1996, IEEE Trans. Pattern Anal. Mach. Intell..

[6]  Sudeep Sarkar,et al.  Baseline results for the challenge problem of HumanID using gait analysis , 2002, Proceedings of Fifth IEEE International Conference on Automatic Face Gesture Recognition.

[7]  R. Fisher THE STATISTICAL UTILIZATION OF MULTIPLE MEASUREMENTS , 1938 .

[8]  M. Nixon,et al.  Human gait recognition in canonical space using temporal templates , 1999 .

[9]  Hiroshi Murase,et al.  Moving object recognition in eigenspace representation: gait analysis and lip reading , 1996, Pattern Recognit. Lett..

[10]  Adam Prügel-Bennett,et al.  New Area Based Measures for Gait Recognition , 2001 .

[11]  Edward H. Adelson,et al.  Analyzing and recognizing walking figures in XYT , 1994, 1994 Proceedings of IEEE Conference on Computer Vision and Pattern Recognition.

[12]  Mark S. Nixon,et al.  Recognising human and animal movement by symmetry , 2001, Proceedings 2001 International Conference on Image Processing (Cat. No.01CH37205).

[13]  J. Cutting,et al.  Recognizing the sex of a walker from a dynamic point-light display , 1977 .

[14]  G. Johansson Visual perception of biological motion and a model for its analysis , 1973 .

[15]  F. Prince,et al.  Symmetry and limb dominance in able-bodied gait: a review. , 2000, Gait & posture.

[16]  Adam Prügel-Bennett,et al.  New Area Based Metrics for Automatic Gait Recognition , 2001, BMVC.

[17]  Keinosuke Fukunaga,et al.  Introduction to statistical pattern recognition (2nd ed.) , 1990 .

[18]  Walter L. Smith Probability and Statistics , 1959, Nature.

[19]  Mark S. Nixon,et al.  Recognising humans by gait via parametric canonical space , 1999, Artif. Intell. Eng..

[20]  J. Little,et al.  Recognizing People by Their Gait: The Shape of Motion , 1998 .

[21]  Larry S. Davis,et al.  Stride and cadence as a biometric in automatic person identification and verification , 2002, Proceedings of Fifth IEEE International Conference on Automatic Face Gesture Recognition.

[22]  Mark S. Nixon,et al.  On a Large Sequence-Based Human Gait Database , 2004 .

[23]  Kohji Fukunaga,et al.  Introduction to Statistical Pattern Recognition-Second Edition , 1990 .

[24]  Mark S. Nixon,et al.  Gait Extraction and Description by Evidence-Gathering , 1999 .

[25]  Mark S. Nixon,et al.  Gait Recognition By Walking and Running: A Model-Based Approach , 2002 .