Shan, Gongbing
Faculty
Kinesiology & Physical Education
- Phone
- (403) 329-2683
- Fax
- (403) 380-1839
- g.shan@uleth.ca
Kinesiology & Physical Education
- Phone
- (403) 442-4037
Biomech Data Proc Lab
- Phone
- (403) 332-4037
Current Research
| Title |
Location |
Principal Investigator | Co-Researchers | Grant Agency |
Grant Amount |
Grant Time Period |
|---|---|---|---|---|---|---|
| Equipment optimization and occupational injury prevention | Lethbridge, AB | Gongbing Shan, University of Lethbridge | ||||
| Equipment optimization and occupational injury prevention | Lethbridge, AB | Gongbing Shan, University of Lethbridge | NSERC | 2008-13 | ||
| 3D motion analysis of various sports skills | Lethbridge, AB | Gongbing Shan, University of Lethbridge | ||||
| 3D motion analysis of various sports skills | Lethbridge, AB | Gongbing Shan, University of Lethbridge | SSAA (Sport Science Association of Alberta) | 2002-10 | ||
| Equipment design | Lethbridge, AB | Gongbing Shan, University of Lethbridge | ||||
| Equipment design | Lethbridge, AB | Gongbing Shan, University of Lethbridge | SAIPN (Southern Alberta Intellectual Property Network) | 2007-09 |
Previous Research
| Title | Grant Agency | Completion Date |
| Ageing study | NSERC IPY Program | 2008 |
| Biomechanical analysis of violin performance | Alberta Foundation for the Arts | 2005 |
Publications
Peer-reviewed publications in the past five years:
Shan, G.B. (2008). Biomechanical Evaluation of Bike Power Saver. Applied Ergonomics, 39(1):37-45.
Visentin, P., Shan, G.B., & Wasiak, E. (2008). Informing Music Teaching and Learning Using Movement Analysis Technology. International Journal of Music Education, 26(1): 71-85.
Dunn, B., Bocksnick, J., Hagen, B., Fu, Y., Li, X. Yuan, J., & Shan, G.B. (2008). Impact of Exercise on Seniors' Motor Control Response to External Dynamics. Research in Sports Medicine, 16(1): 39-55.
Shan, G.B., Visentin, P., Wooldridge, L., Wang, C. & Connolly, D. (2007). A Frequency-based Characterization of Spiccato Bowing in Violin Performance. Perceptual and Motor Skills, 105:1027-1051.
Shan, G.B., Wilde, B., Wooldridge, L., & Bohn, C. (2006). Comparaison 3D Entre le Grand Jeté en Danse et L'Axe Kick en Taekwondo: Évaluation du Risque par Modélisation Bioméchanique. Médecine des Arts, 53: 8-13.
Bohn, C., Shan, G.B. and Nicol K. (2006). Auftretende Belastungen beim Laufsport mit Alltagsprothesen - Loadings During Running with Above-Knee Prosthesis. Orthopädie-Technik, 4/06:250-55.
Betzler, N., Hofmann, M., Shan, G.B., & Witte, K. (2006). Biomechanical Modelling of a Golf Swing by Means of the Multibody-Kinetics Software "ADAMS". International Journal of Computer Science in Sport, 5(2): 52-55.
Shan, G.B., Visentin, P., & Iltis, P. (2005). Utility of EMG as a means to quantify activity levels in small muscles. Medical Problems of Performing Artists, 20(2): 111-112.
Shan, G.B., Daniels, D., Wang, C. Wutzke, C., & Lemire, G. (2005). Biomechanical analysis of maximal instep kick by female soccer players. Journal of Human Movement Studies, 49: 149-168.
Shan, G.B., & Westerhoff, P. (2005). Full-body kinematic characteristics of the maximal instep soccer kick by male soccer players and parameters related to kick quality. Sports Biomechanics, 4(1): 59-72.
Shan, G.B. (2005). Comparison of repetitive movements between ballet dancers and martial artists ⎯ risk assessment of muscle overuse injuries and prevention strategies. Research in Sports Medicine, 13(1): 63-76.
Shan, G.B. (2005). Content validity, criterion validity and generalization of anthropometric studies. Applied Ergonomics, 36(1): 121-122.
Shan, G.B., Visentin, P., & Schultz, A. (2004). Multi-dimensional signal analysis as a means of better understanding factors associated with repetitive use in violin performance. Medical Problems of Performing Artists, 19(3): 129-139.
Shan, G.B., Wu, G., & Haugh, L. (2004). A method to determine the interdependent relationships between biomechanical variables in Artificial Neural Network models: the case of lower extremity muscle activity and body sway. Neurocomputing, 61: 241-258.
Shan, G.B., Daniels, D., & Gu, R. (2004). Artificial neural networks and center-of-pressure modeling: a practical method for sensori-motor degradation assessment. Journal of Aging and Physical Activity, 11: 79-93.
Shan, G.B., Sust, M., Simard, S., Bohn, C., & Nicol, K. (2004). How can dynamic rigid-body modeling be helpful in motor learning? - Diagnosing performance using dynamic modeling. Kinesiology, 36(1): 5-14.
Shan, G.B., Bohn, C., Sust, M.,& Nicol, K. (2004). How can dynamic rigid-body modeling be helpful in motor learning? - Learning performance through dynamic modeling. Kinesiology, 36(2): 182-191.
Visentin, P., & Shan, G.B. (2004). An innovative approach to understand overuse injuries: biomechanical modeling as a platform to integrate information obtained from various analytical tools. Medical Problems of Performing Artists, 19(2): 96-102.
Shan, G.B., & Wilde, B. (2003). The selection of pretest states and parameters in identifying the age effect through the center of pressure measurement. Research in Sports Medicine, 11: 187-201.
Shan, G.B., & Bohn, C. (2003). Anthropometrical data and coefficients of regression related to gender and race. Applied Ergonomics, 34(4): 327-337.
Shan, G.B., & Visentin, P. (2003) A quantitative three-dimensional analysis of arm kinematics in violin performance. Medical Problems of Performing Artists, 18(1): 3-10.
Visentin, P., & Shan, G.B. (2003) The kinetic characteristics of the bow arm during violin performance; an examination of internal loads as a function of tempo. Medical Problems of Performing Artists, 18(3):91-97.
Sust, M., Shan, G.B., Korban, S., & Nicol, K. (2003). Methode zur Trennung von muskulär und nichtmuskulär verursachten Drehmomentanteilen am Beispiel eines einfachen Trampolin-sprunges. Spectrum der Sportwissenschaten, 15(2), 34-59.
Bohn, C., Shan, G.B., Korff, T., & Nicol, K. (2003). Laufen mit Obershenkelprothesen im Alltag - sinnvoll order shaedlich? Schriften der Deutschen Vereinigung fuer Sportwissenschaft, Band 135, 64-66.
Shan, G.B. (2008). Biomechanical Evaluation of Bike Power Saver. Applied Ergonomics, 39(1):37-45.
Visentin, P., Shan, G.B., & Wasiak, E. (2008). Informing Music Teaching and Learning Using Movement Analysis Technology. International Journal of Music Education, 26(1): 71-85.
Dunn, B., Bocksnick, J., Hagen, B., Fu, Y., Li, X. Yuan, J., & Shan, G.B. (2008). Impact of Exercise on Seniors' Motor Control Response to External Dynamics. Research in Sports Medicine, 16(1): 39-55.
Shan, G.B., Visentin, P., Wooldridge, L., Wang, C. & Connolly, D. (2007). A Frequency-based Characterization of Spiccato Bowing in Violin Performance. Perceptual and Motor Skills, 105:1027-1051.
Shan, G.B., Wilde, B., Wooldridge, L., & Bohn, C. (2006). Comparaison 3D Entre le Grand Jeté en Danse et L'Axe Kick en Taekwondo: Évaluation du Risque par Modélisation Bioméchanique. Médecine des Arts, 53: 8-13.
Bohn, C., Shan, G.B. and Nicol K. (2006). Auftretende Belastungen beim Laufsport mit Alltagsprothesen - Loadings During Running with Above-Knee Prosthesis. Orthopädie-Technik, 4/06:250-55.
Betzler, N., Hofmann, M., Shan, G.B., & Witte, K. (2006). Biomechanical Modelling of a Golf Swing by Means of the Multibody-Kinetics Software "ADAMS". International Journal of Computer Science in Sport, 5(2): 52-55.
Shan, G.B., Visentin, P., & Iltis, P. (2005). Utility of EMG as a means to quantify activity levels in small muscles. Medical Problems of Performing Artists, 20(2): 111-112.
Shan, G.B., Daniels, D., Wang, C. Wutzke, C., & Lemire, G. (2005). Biomechanical analysis of maximal instep kick by female soccer players. Journal of Human Movement Studies, 49: 149-168.
Shan, G.B., & Westerhoff, P. (2005). Full-body kinematic characteristics of the maximal instep soccer kick by male soccer players and parameters related to kick quality. Sports Biomechanics, 4(1): 59-72.
Shan, G.B. (2005). Comparison of repetitive movements between ballet dancers and martial artists ⎯ risk assessment of muscle overuse injuries and prevention strategies. Research in Sports Medicine, 13(1): 63-76.
Shan, G.B. (2005). Content validity, criterion validity and generalization of anthropometric studies. Applied Ergonomics, 36(1): 121-122.
Shan, G.B., Visentin, P., & Schultz, A. (2004). Multi-dimensional signal analysis as a means of better understanding factors associated with repetitive use in violin performance. Medical Problems of Performing Artists, 19(3): 129-139.
Shan, G.B., Wu, G., & Haugh, L. (2004). A method to determine the interdependent relationships between biomechanical variables in Artificial Neural Network models: the case of lower extremity muscle activity and body sway. Neurocomputing, 61: 241-258.
Shan, G.B., Daniels, D., & Gu, R. (2004). Artificial neural networks and center-of-pressure modeling: a practical method for sensori-motor degradation assessment. Journal of Aging and Physical Activity, 11: 79-93.
Shan, G.B., Sust, M., Simard, S., Bohn, C., & Nicol, K. (2004). How can dynamic rigid-body modeling be helpful in motor learning? - Diagnosing performance using dynamic modeling. Kinesiology, 36(1): 5-14.
Shan, G.B., Bohn, C., Sust, M.,& Nicol, K. (2004). How can dynamic rigid-body modeling be helpful in motor learning? - Learning performance through dynamic modeling. Kinesiology, 36(2): 182-191.
Visentin, P., & Shan, G.B. (2004). An innovative approach to understand overuse injuries: biomechanical modeling as a platform to integrate information obtained from various analytical tools. Medical Problems of Performing Artists, 19(2): 96-102.
Shan, G.B., & Wilde, B. (2003). The selection of pretest states and parameters in identifying the age effect through the center of pressure measurement. Research in Sports Medicine, 11: 187-201.
Shan, G.B., & Bohn, C. (2003). Anthropometrical data and coefficients of regression related to gender and race. Applied Ergonomics, 34(4): 327-337.
Shan, G.B., & Visentin, P. (2003) A quantitative three-dimensional analysis of arm kinematics in violin performance. Medical Problems of Performing Artists, 18(1): 3-10.
Visentin, P., & Shan, G.B. (2003) The kinetic characteristics of the bow arm during violin performance; an examination of internal loads as a function of tempo. Medical Problems of Performing Artists, 18(3):91-97.
Sust, M., Shan, G.B., Korban, S., & Nicol, K. (2003). Methode zur Trennung von muskulär und nichtmuskulär verursachten Drehmomentanteilen am Beispiel eines einfachen Trampolin-sprunges. Spectrum der Sportwissenschaten, 15(2), 34-59.
Bohn, C., Shan, G.B., Korff, T., & Nicol, K. (2003). Laufen mit Obershenkelprothesen im Alltag - sinnvoll order shaedlich? Schriften der Deutschen Vereinigung fuer Sportwissenschaft, Band 135, 64-66.
Degrees
Post-Doctor (granted by National Institute of Health, USA), Motion Analysis Laboratory, Department of Physical Therapy, University of Vermont, VT, USA; Doctoral Degree. (Major: Biomechanics, Sub-majors: Physics, Pedagogy and Computer Science), University of Muenster, Muenster, Germany
Research Interests
Dr. Shan’s research interests cover the areas of biomechanical modelling of sports skills, anthropometry, motor control and learning, injury prevention and population health problems. His current research interests lie in understanding the mechanism of posture control by the way of Biomechanical modelling, artificial neural network modelling (ANN), Biomechanical analysis of musical performances and multi-media application in biomechanical teaching
Research Areas
Research of repetitive stress injuries in sports and music performance
Sports biomechanics (3D motion analysis and modeling)
Equipment design evaluation and optimization (bicycle golf shoe violin bow ...)
Ageing study (fall prediction and prevention)
Previous Research Areas
The prediction and prevention of falls among the elderly
Equipment design evaluation and optimization
Sports and music performance analyses
Biomechanical modeling
Ergonomics/anthropometry 3D motion analysis
Repetitive stress injuries
Biomechanics
Expertise
The prediction and prevention of falls among the elderly
Evaluation and optimization
Equipment design
Sports and music performance analyses
Biomechanical Modeling
3D motion analysis
Ergonomics/anthropometry
Repetitive Stress Injuries
Biomechanics