Felix E. Zajac, III
Affiliations: | Mechanical Engineering | Stanford University/VA RR&D Center |
Area:
Biomechanics, Mechanical Engineering, NeuroscienceWebsite:
https://me.stanford.edu/people/felix-zajacGoogle:
""Felix Zajac Stanford""Bio:
https://www.rehab.research.va.gov/jour/00/37/2/zajed372.htm
https://books.google.com/books?id=6qdCAAAAIAAJ
Mean distance: 15.67 (cluster 22)
Cross-listing: Biomechanics Tree - BME Tree
Parents
Sign in to add mentor| James C. Bliss | grad student | 1968 | Stanford (E-Tree) | |
| Gene F. Franklin | grad student | 1968 | Stanford (E-Tree) | |
| (The Mathematical Formulation of the Kinematic Properties of Muscle Derived from an Experimental Investigation.) | ||||
| Robert E. Burke | post-doc | |||
Children
Sign in to add trainee| Arthur D. Kuo | grad student | (Biomechanics Tree) | |
| Lena H. Ting | grad student | ||
| Francisco J. Valero-Cuevas | grad student | Cornell | |
| Gary T Yamaguchi | grad student | Arizona State | |
| Scott Delp | grad student | 1990 | Stanford |
| Benjamin J. Fregly | grad student | 1993 | Stanford (E-Tree) |
| Joseph D. Towles | grad student | 2003 | Stanford |
| Jill Higginson | grad student | 2000-2005 | Stanford |
| David A. Brown | post-doc | Stanford | |
| Richard R. Neptune | post-doc | 1998-2001 | Stanford (E-Tree) |
| Carolynn Patten | post-doc | 1998-2001 | Stanford University/VA RRD Center |
| Steven A. Kautz | post-doc | 1994-2002 | Rehabilitation Research and Development Center |
BETA: Related publications
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Publications
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| Nott CR, Zajac FE, Neptune RR, et al. (2010) All joint moments significantly contribute to trunk angular acceleration. Journal of Biomechanics. 43: 2648-52 |
| Clark DJ, Ting LH, Zajac FE, et al. (2010) Merging of healthy motor modules predicts reduced locomotor performance and muscle coordination complexity post-stroke. Journal of Neurophysiology. 103: 844-57 |
| Neptune RR, Zajac FE, Kautz SA. (2009) Author's Response to Comment on "Contributions of the individual ankle plantar flexors to support, forward progression and swing initiation during walking" (Neptune et al., 2001) and "Muscle mechanical work requirements during normal walking: The energetic cost of raising the body's center-of-mass is significant" (). Journal of Biomechanics. 42: 1786-1789 |
| Chen G, Patten C, Kothari DH, et al. (2005) Gait deviations associated with post-stroke hemiparesis: improvement during treadmill walking using weight support, speed, support stiffness, and handrail hold. Gait & Posture. 22: 57-62 |
| Chen G, Patten C, Kothari DH, et al. (2005) Gait differences between individuals with post-stroke hemiparesis and non-disabled controls at matched speeds. Gait & Posture. 22: 51-6 |
| Zajac FE, Neptune RR, Kautz SA. (2003) Biomechanics and muscle coordination of human walking: part II: lessons from dynamical simulations and clinical implications. Gait & Posture. 17: 1-17 |
| Zajac FE. (2003) Understanding muscle coordination of the human leg with dynamical simulations. Journal of Biomechanics. 35: 1011-8 |
| Zajac FE, Neptune RR, Kautz SA. (2002) Biomechanics and muscle coordination of human walking. Part I: introduction to concepts, power transfer, dynamics and simulations. Gait & Posture. 16: 215-32 |
| Pappas GP, Asakawa DS, Delp SL, et al. (2002) Nonuniform shortening in the biceps brachii during elbow flexion. Journal of Applied Physiology (Bethesda, Md. : 1985). 92: 2381-9 |