An extending Fitts' Law for human upper limb performance evaluation

Human motor behavior is complex and is challenging to understand. Fitts' Law presented a relationship between speed, accuracy, amplitude of movement and target size in upper extremity tasks. In this paper, Fitts' Law was extended from one-dimensional motion to two-dimensional motion in the polar coordinate system for the human upper limb performance. Based on this, a set of indices were proposed. The index of difficulty and the index of performance were introduced as the general indices for the quality measure of plane pointing movement, which is a basic functional action of upper-limb in human daily life. Five healthy subjects were asked to perform six pointing tasks with different indices of difficulty. All movements were recorded using a Vicon motion analysis system. The movement quality was evaluated using these evaluation indices.

[1]  George V. Kondraske,et al.  A new approach to human motion quality measurement , 1997, Proceedings of the 19th Annual International Conference of the IEEE Engineering in Medicine and Biology Society. 'Magnificent Milestones and Emerging Opportunities in Medical Engineering' (Cat. No.97CH36136).

[2]  Peter Rosenbaum,et al.  MEASURING QUALITY OF MOVEMENT IN CEREBRAL PALSY. A REVIEW OF INSTRUMENTS , 1992 .

[3]  George V. Kondraske Angular motion Fitts' law for human performance modeling and prediction , 1994 .

[4]  R Seliktar,et al.  Analysis of arm trajectories of everyday tasks for the development of an upper-limb orthosis. , 2000, IEEE transactions on rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society.

[5]  L. Nashner,et al.  The organization of human postural movements: A formal basis and experimental synthesis , 1985, Behavioral and Brain Sciences.

[6]  U. Wyss,et al.  Review of arm motion analyses , 2000, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[7]  Daniel W. Repperger,et al.  The acceleration time constant: comparison of normal and spastic upper extremity movement , 1995, Proceedings of 17th International Conference of the Engineering in Medicine and Biology Society.

[8]  C. Goldsmith,et al.  Measuring quality of movement in cerebral palsy: a review of instruments. , 1991, Physical therapy.

[9]  P. Fitts The information capacity of the human motor system in controlling the amplitude of movement. , 1954, Journal of experimental psychology.

[10]  George V. Kondraske,et al.  A PC-Based performance measurement laboratory system , 1990 .

[11]  J. F. Soechting,et al.  Invariant characteristics of a pointing movement in man , 1981, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[12]  Jean-Louis Vercher,et al.  Hand movement strategies in telecontrolled motion along 2-D trajectories , 1992, IEEE Trans. Syst. Man Cybern..

[13]  J. F. Soechting,et al.  Path constraints on point-to-point arm movements in three-dimensional space , 1986, Neuroscience.

[14]  Tamar Flash,et al.  The Organization of Human Arm Trajectory Control , 1990 .

[15]  Raymond G. Gosine,et al.  A functional task analysis and motion simulation for the development of a powered upper-limb orthosis , 1994 .