Mark L. Latash

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2009

25 Joel Martin, Mark L. Latash, Vladimir M. Zatsiorsky: Inverse piano technique for studying finger interaction during pressing tasks. WHC 2009: 395-396

2008

24 Mark L. Latash, Xun Niu, Vladimir M. Zatsiorsky: Multi-finger Prehension Synergy: Exploration with Transcranial Magnetic Stimulation. EuroHaptics 2008: 389-394

2006

23 Mark K. Budgeon, Mark L. Latash, Vladimir M. Zatsiorsky, Zong-Ming Li: Inverse Piano Technique: a New Tool to Study Finger Interdependence. HAPTICS 2006: 61

22 Simon R. Goodman, Mark L. Latash: Feed-forward control of a redundant motor system. Biological Cybernetics 95(3): 271-280 (2006)

2005

21 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. Biological Cybernetics 92(3): 186-191 (2005)

2004

20 Vladimir M. Zatsiorsky, Mark L. Latash, Frédéric Danion, Fan Gao, Zong-Ming Li, Robert W. Gregory, Sheng Li: Inter-finger Connection Matrices. International Conference on Computational Science 2004: 1056-1064

19 Simon R. Goodman, Mark L. Latash, Vladimir M. Zatsiorsky: Indices of nonlinearity in finger force interaction. Biological Cybernetics 90(4): 264-271 (2004)

18 Todd C. Pataky, Mark L. Latash, Vladimir M. Zatsiorsky: Prehension synergies during nonvertical grasping, I: experimental observations. Biological Cybernetics 91(3): 148-158 (2004)

17 Todd C. Pataky, Mark L. Latash, Vladimir M. Zatsiorsky: Prehension synergies during nonvertical grasping, II: Modeling and optimization. Biological Cybernetics 91(4): 231-242 (2004)

16 Fan Gao, Mark L. Latash, Vladimir M. Zatsiorsky: Neural network modeling supports a theory on the hierarchical control of prehension. Neural Computing and Applications 13(4): 352-359 (2004)

15 Vladimir M. Zatsiorsky, Mark L. Latash, Fan Gao, Jae Kun Shim: The principle of superposition in human prehension. Robotica 22(2): 231-234 (2004)

2003

14 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. Biological Cybernetics 88(2): 91-98 (2003)

13 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. Biological Cybernetics 89(2): 152-161 (2003)

12 Fan Gao, Sheng Li, Zong-Ming Li, Mark L. Latash, Vladimir M. Zatsiorsky: Matrix analyses of interaction among fingers in static force production tasks. Biological Cybernetics 89(6): 407-414 (2003)

2002

11 John P. Scholz, Frédéric Danion, Mark L. Latash, Gregor Schöner: Understanding finger coordination through analysis of the structure of force variability. Biological Cybernetics 86(1): 29-39 (2002)

10 Vladimir M. Zatsiorsky, Robert W. Gregory, Mark L. Latash: Force and torque production in static multifinger prehension: biomechanics and control. II. Control. Biological Cybernetics 87(1): 40-49 (2002)

9 Vladimir M. Zatsiorsky, Robert W. Gregory, Mark L. Latash: Force and torque production in static multifinger prehension: biomechanics and control. I. Biomechanics. Biological Cybernetics 87(1): 50-57 (2002)

8 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. Neurocomputing 47(1-4): 259-275 (2002)

1999

7 Kazuhisa Domen, Mark L. Latash, Vladimir M. Zatsiorsky: Reconstruction of equilibrium trajectories during whole-body movements. Biological Cybernetics 80(3): 195-204 (1999)

1998

6 Vladimir M. Zatsiorsky, Zong-Ming Li, Mark L. Latash: Coordinated force production in multi-finger tasks: finger interaction and neural network modeling. Biological Cybernetics 79(2): 139-150 (1998)

1994

5 Mark L. Latash, Simon R. Gutman: Abnormal motor patterns in the framework of the equilibrium-point hypothesis: a cause for dystonic movements? Biological Cybernetics 71(1): 87-94 (1994)

4 Mark L. Latash: Reconstruction of equilibrium trajectories and joint stiffness patterns during single-joint voluntary movements under different instructions. Biological Cybernetics 71(5): 441-450 (1994)

1993

3 Simon R. Gutman, Mark L. Latash, Gil L. Almeida, Gerald L. Gottlieb: Kinematic description of variability of fast movements: analytical and experimental approaches. Biological Cybernetics 69(5-6): 485-492 (1993)

1992

2 Mark L. Latash: Independent control of joint stiffness in the framework of the equilibrium-point hypothesis. Biological Cybernetics 67(4): 377-384 (1992)

1991

1 Mark L. Latash, Simon R. Gutman, Gerald L. Gottlieb: Relativistic effects in single-joint voluntary movements. Biological Cybernetics 65(5): 401-406 (1991)

	2009
25		Joel Martin, Mark L. Latash, Vladimir M. Zatsiorsky: Inverse piano technique for studying finger interaction during pressing tasks. WHC 2009: 395-396
	2008
24		Mark L. Latash, Xun Niu, Vladimir M. Zatsiorsky: Multi-finger Prehension Synergy: Exploration with Transcranial Magnetic Stimulation. EuroHaptics 2008: 389-394
	2006
23		Mark K. Budgeon, Mark L. Latash, Vladimir M. Zatsiorsky, Zong-Ming Li: Inverse Piano Technique: a New Tool to Study Finger Interdependence. HAPTICS 2006: 61
22		Simon R. Goodman, Mark L. Latash: Feed-forward control of a redundant motor system. Biological Cybernetics 95(3): 271-280 (2006)
	2005
21		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. Biological Cybernetics 92(3): 186-191 (2005)
	2004
20		Vladimir M. Zatsiorsky, Mark L. Latash, Frédéric Danion, Fan Gao, Zong-Ming Li, Robert W. Gregory, Sheng Li: Inter-finger Connection Matrices. International Conference on Computational Science 2004: 1056-1064
19		Simon R. Goodman, Mark L. Latash, Vladimir M. Zatsiorsky: Indices of nonlinearity in finger force interaction. Biological Cybernetics 90(4): 264-271 (2004)
18		Todd C. Pataky, Mark L. Latash, Vladimir M. Zatsiorsky: Prehension synergies during nonvertical grasping, I: experimental observations. Biological Cybernetics 91(3): 148-158 (2004)
17		Todd C. Pataky, Mark L. Latash, Vladimir M. Zatsiorsky: Prehension synergies during nonvertical grasping, II: Modeling and optimization. Biological Cybernetics 91(4): 231-242 (2004)
16		Fan Gao, Mark L. Latash, Vladimir M. Zatsiorsky: Neural network modeling supports a theory on the hierarchical control of prehension. Neural Computing and Applications 13(4): 352-359 (2004)
15		Vladimir M. Zatsiorsky, Mark L. Latash, Fan Gao, Jae Kun Shim: The principle of superposition in human prehension. Robotica 22(2): 231-234 (2004)
	2003
14		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. Biological Cybernetics 88(2): 91-98 (2003)
13		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. Biological Cybernetics 89(2): 152-161 (2003)
12		Fan Gao, Sheng Li, Zong-Ming Li, Mark L. Latash, Vladimir M. Zatsiorsky: Matrix analyses of interaction among fingers in static force production tasks. Biological Cybernetics 89(6): 407-414 (2003)
	2002
11		John P. Scholz, Frédéric Danion, Mark L. Latash, Gregor Schöner: Understanding finger coordination through analysis of the structure of force variability. Biological Cybernetics 86(1): 29-39 (2002)
10		Vladimir M. Zatsiorsky, Robert W. Gregory, Mark L. Latash: Force and torque production in static multifinger prehension: biomechanics and control. II. Control. Biological Cybernetics 87(1): 40-49 (2002)
9		Vladimir M. Zatsiorsky, Robert W. Gregory, Mark L. Latash: Force and torque production in static multifinger prehension: biomechanics and control. I. Biomechanics. Biological Cybernetics 87(1): 50-57 (2002)
8		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. Neurocomputing 47(1-4): 259-275 (2002)
	1999
7		Kazuhisa Domen, Mark L. Latash, Vladimir M. Zatsiorsky: Reconstruction of equilibrium trajectories during whole-body movements. Biological Cybernetics 80(3): 195-204 (1999)
	1998
6		Vladimir M. Zatsiorsky, Zong-Ming Li, Mark L. Latash: Coordinated force production in multi-finger tasks: finger interaction and neural network modeling. Biological Cybernetics 79(2): 139-150 (1998)
	1994
5		Mark L. Latash, Simon R. Gutman: Abnormal motor patterns in the framework of the equilibrium-point hypothesis: a cause for dystonic movements? Biological Cybernetics 71(1): 87-94 (1994)
4		Mark L. Latash: Reconstruction of equilibrium trajectories and joint stiffness patterns during single-joint voluntary movements under different instructions. Biological Cybernetics 71(5): 441-450 (1994)
	1993
3		Simon R. Gutman, Mark L. Latash, Gil L. Almeida, Gerald L. Gottlieb: Kinematic description of variability of fast movements: analytical and experimental approaches. Biological Cybernetics 69(5-6): 485-492 (1993)
	1992
2		Mark L. Latash: Independent control of joint stiffness in the framework of the equilibrium-point hypothesis. Biological Cybernetics 67(4): 377-384 (1992)
	1991
1		Mark L. Latash, Simon R. Gutman, Gerald L. Gottlieb: Relativistic effects in single-joint voluntary movements. Biological Cybernetics 65(5): 401-406 (1991)

Coauthor Index

1 Gil L. Almeida [3]

2 N. K. Bose [8]

3 Mark K. Budgeon [23]

4 Frédéric Danion [11] [14] [20]

5 Kazuhisa Domen [7]

6 Fan Gao [12] [15] [16] [20]

7 Simon R. Goodman [13] [19] [22]

8 Gerald L. Gottlieb [1] [3]

9 Robert W. Gregory [9] [10] [20]

10 Simon R. Gutman [1] [3] [5]

11 Vijaya Krishnamoorthy [13]

12 Sheng Li [12] [14] [20]

13 Zong-Ming Li [6] [8] [12] [20] [23]

14 Joel Martin [25]

15 Xun Niu [24]

16 Todd C. Pataky [17] [18]

17 John P. Scholz [11] [14]

18 Gregor Schöner [11] [14]

19 Jae Kun Shim [15] [21]

20 Andrei V. Smilga [21]

21 Vladimir M. Zatsiorsky [6] [7] [8] [9] [10] [12] [13] [14] [15] [16] [17] [18] [19] [20] [21] [23] [24] [25]

Last update Sun Feb 12 22:50:56 2012 CET by the DBLP Team —

Data released under the ODC-BY 1.0 license — See also our legal information page

1	Gil L. Almeida	[3]
2	N. K. Bose	[8]
3	Mark K. Budgeon	[23]
4	Frédéric Danion	[11] [14] [20]
5	Kazuhisa Domen	[7]
6	Fan Gao	[12] [15] [16] [20]
7	Simon R. Goodman	[13] [19] [22]
8	Gerald L. Gottlieb	[1] [3]
9	Robert W. Gregory	[9] [10] [20]
10	Simon R. Gutman	[1] [3] [5]
11	Vijaya Krishnamoorthy	[13]
12	Sheng Li	[12] [14] [20]
13	Zong-Ming Li	[6] [8] [12] [20] [23]
14	Joel Martin	[25]
15	Xun Niu	[24]
16	Todd C. Pataky	[17] [18]
17	John P. Scholz	[11] [14]
18	Gregor Schöner	[11] [14]
19	Jae Kun Shim	[15] [21]
20	Andrei V. Smilga	[21]
21	Vladimir M. Zatsiorsky	[6] [7] [8] [9] [10] [12] [13] [14] [15] [16] [17] [18] [19] [20] [21] [23] [24] [25]