Education

B.S. in Mechanical Engineering, 1983, California State University, San Luis Obispo
Biomedical Engineering Certificate Program, 1984, University of California, Irvine
M.S. in Bioengineering, 1985, University of California, San Diego
Ph.D. in Biomedical Engineering, 1990, University of California, Davis

Partial Publication List

Nielsen, C., Stover, S., Schulz, K, Hubbard, M., and Hawkins, D. A Two-Dimensional Link-Segment Model of the Canine Forelimb at the Walking Gait. American Journal of Veterinary Research. 64(5):609-617, 2003.

Zarucco, L., Swanstrom, M., Driessen, B, Stover, S., Hubbard, M. Hawkins, D. Steffy, E. An in vivo equine forelimb model for short-term recording of peak isometric force in the superficial and deep digital flexor muscles. Veterinary Surgery 32:439-450, 2003.

Page, P.N. and Hawkins, D.A. A Real-Time Biomechanical Feedback System for Training Rowers. Sports Engineering.6(2):67-80, 2003.

Dellanini, L., Hawkins, D., Martin, R.B., and Stover, S. An Investigation of the Interactions Between Lower Limb Bone Morphology, Limb Inertial Properties and Limb Dynamics. Journal of Biomechanics. 36:913-919, 2003.

Baudouin, A., and Hawkins D. A Biomechanical Review of Factors Affecting Rowing Performance. British Journal of Sports Medicine. Dec;36(6):396-402, 2002.

Hawkins, D. A review of the technologies and methodologies used to quantify muscle-tendon structure and function. Chp 6 in Musculoskeletal Models and Techniques, Volume III of Biomechanical Systems Techniques and Applications. CRC Press. New York, New York, 2001, pp.6.1-6.23.

Hawkins, D, and Barr, A. A computational approach for simulating muscle morphologic changes in musculoskeletal modeling. Computer Methods in Biomechanics and Biomedical Engineering, 4:399-411, 2001.

Hawkins, D, and Metheny, J. Overuse injuries in youth sports: Biomechanical considerations. Medicine and Science in Sports and Exericse, 33(10):1701-1707, 2001.

Hawkins, D. A non-invasive approach for studying muscle-tendon interactions in-vivo. Chapter 18 in Skeletal Muscle Mechanics: From Mechanisms to Function. Edited by Walter Herzog, John Wiley and Sons, New York, NY, 2000.

Barr, A., and Hawkins, D. An anatomical database providing three-dimensional geometric representation of lower limb structures. Journal of Applied Biomechanics. 16: 301-308, 2000.

Hawkins, D. A new instrumentation system for training rowers. Journal of Biomechanics. 33(2):241-246, 2000.

Hawkins, D. and Smeulders, M. Modeling the relationship between hip extension torque, velocity, and muscle activation. Journal of Applied Biomechanics. 15(3):253-269, 1999.

Hawkins, D. and Smeulders, M. Modeling the relationship between knee joint torque, velocity, and muscle activation: Considerations for musculoskeletal modeling. Journal of Applied Biomechanics. 14(2):141-157, 1998.

Hawkins, D. and P.A. Molé. Modeling energy expenditure associated with isometric, concentric, and eccentric muscle action at the knee. Annals of Biomedical Engineering. 25(6):822-830, 1997.

Hawkins, D. Muscle-Tendon force enhancement during a stretch shortening cycle: The role of cross-bridge force potentiation. Biology of Sport. 14(3):227-236, 1997.

Hawkins, D. and M.J. Bey. Muscle and tendon force-length properties and their interactions in-vivo. Journal of Biomechanics. 30(1):63-70, 1997.