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Mark L. Latash: [Publications] [Author Rank by year] [Co-authors] [Prefers] [Cites] [Cited by]

Publications of Author

  1. Mark K. Budgeon, Mark L. Latash, Vladimir M. Zatsiorsky, Zong-Ming Li
    Inverse Piano Technique: a New Tool to Study Finger Interdependence. [Citation Graph (0, 0)][DBLP]
    HAPTICS, 2006, pp:61- [Conf]
  2. Vladimir M. Zatsiorsky, Mark L. Latash, Frédéric Danion, Fan Gao, Zong-Ming Li, Robert W. Gregory, Sheng Li
    Inter-finger Connection Matrices. [Citation Graph (0, 0)][DBLP]
    International Conference on Computational Science, 2004, pp:1056-1064 [Conf]
  3. Simon R. Goodman, Mark L. Latash, Vladimir M. Zatsiorsky
    Indices of nonlinearity in finger force interaction. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2004, v:90, n:4, pp:264-271 [Journal]
  4. Frédéric Danion, Gregor Schöner, Mark L. Latash, Sheng Li, John P. Scholz, Vladimir M. Zatsiorsky
    A mode hypothesis for finger interaction during multi-finger force-production tasks. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2003, v:88, n:2, pp:91-98 [Journal]
  5. Fan Gao, Sheng Li, Zong-Ming Li, Mark L. Latash, Vladimir M. Zatsiorsky
    Matrix analyses of interaction among fingers in static force production tasks. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2003, v:89, n:6, pp:407-414 [Journal]
  6. Vijaya Krishnamoorthy, Simon R. Goodman, Vladimir M. Zatsiorsky, Mark L. Latash
    Muscle synergies during shifts of the center of pressure by standing persons: identification of muscle modes. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2003, v:89, n:2, pp:152-161 [Journal]
  7. Mark L. Latash, Jae Kun Shim, Andrei V. Smilga, Vladimir M. Zatsiorsky
    A central back-coupling hypothesis on the organization of motor synergies: a physical metaphor and a neural model. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2005, v:92, n:3, pp:186-191 [Journal]
  8. Todd C. Pataky, Mark L. Latash, Vladimir M. Zatsiorsky
    Prehension synergies during nonvertical grasping, I: experimental observations. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2004, v:91, n:3, pp:148-158 [Journal]
  9. Todd C. Pataky, Mark L. Latash, Vladimir M. Zatsiorsky
    Prehension synergies during nonvertical grasping, II: Modeling and optimization. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2004, v:91, n:4, pp:231-242 [Journal]
  10. Vladimir M. Zatsiorsky, Robert W. Gregory, Mark L. Latash
    Force and torque production in static multifinger prehension: biomechanics and control. II. Control. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2002, v:87, n:1, pp:40-49 [Journal]
  11. Vladimir M. Zatsiorsky, Robert W. Gregory, Mark L. Latash
    Force and torque production in static multifinger prehension: biomechanics and control. I. Biomechanics. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2002, v:87, n:1, pp:50-57 [Journal]
  12. Simon R. Goodman, Mark L. Latash
    Feed-forward control of a redundant motor system. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2006, v:95, n:3, pp:271-280 [Journal]
  13. Zong-Ming Li, Vladimir M. Zatsiorsky, Mark L. Latash, N. K. Bose
    Anatomically and experimentally based neural networks modeling force coordination in static multi-finger tasks. [Citation Graph (0, 0)][DBLP]
    Neurocomputing, 2002, v:47, n:1-4, pp:259-275 [Journal]
  14. Fan Gao, Mark L. Latash, Vladimir M. Zatsiorsky
    Neural network modeling supports a theory on the hierarchical control of prehension. [Citation Graph (0, 0)][DBLP]
    Neural Computing and Applications, 2004, v:13, n:4, pp:352-359 [Journal]
  15. John P. Scholz, Frédéric Danion, Mark L. Latash, Gregor Schöner
    Understanding finger coordination through analysis of the structure of force variability. [Citation Graph (0, 0)][DBLP]
    Biological Cybernetics, 2002, v:86, n:1, pp:29-39 [Journal]

  16. Multi-finger Prehension Synergy: Exploration with Transcranial Magnetic Stimulation. [Citation Graph (, )][DBLP]


  17. Inverse piano technique for studying finger interaction during pressing tasks. [Citation Graph (, )][DBLP]


  18. Reconstruction of equilibrium trajectories during whole-body movements. [Citation Graph (, )][DBLP]


  19. Coordinated force production in multi-finger tasks: finger interaction and neural network modeling. [Citation Graph (, )][DBLP]


  20. Abnormal motor patterns in the framework of the equilibrium-point hypothesis: a cause for dystonic movements? [Citation Graph (, )][DBLP]


  21. Reconstruction of equilibrium trajectories and joint stiffness patterns during single-joint voluntary movements under different instructions. [Citation Graph (, )][DBLP]


  22. Kinematic description of variability of fast movements: analytical and experimental approaches. [Citation Graph (, )][DBLP]


  23. Independent control of joint stiffness in the framework of the equilibrium-point hypothesis. [Citation Graph (, )][DBLP]


  24. Relativistic effects in single-joint voluntary movements. [Citation Graph (, )][DBLP]


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