Biomedical Engineering Reference
In-Depth Information
[26] H. Goldstein, The neural encoding of saccades in the rhesus monkey (Ph.D. dissertation), The Johns Hopkins
University, Baltimore, MD, 1983.
[27] M.R. Harwood, L.E. Mezey, C.M. Harris, The Spectral Main Sequence of Human Saccades, J. Neurosci. 19 (20)
(1999) 9098-9106.
[28] A.V. Hill, The heat of shortening and dynamic constants of muscle, Pro. Royal Soc., London (B) 126 (1938)
136-195.
[29] A.V. Hill, The development of the active-state of muscle during the latent period, Pro. Royal Soc., London (B)
137 (1950a) 320-329.
[30] A.V. Hill, The series elastic component of muscle, Pro. Royal Soc., London (B) 137 (1950) 273-280.
[31] A.V. Hill, The transition from rest to full activity in muscles: the velocity of shortening, Pro. Royal Soc.,
London (B) 138 (1951a) 329-338.
[32] A.V. Hill, The effect of series compliance on the tension developed in a muscle twitch, Pro. Royal Soc., London
(B) 138 (1951b) 325-329.
[33] F.K. Hsu, A.T. Bahill, L. Stark, Parametric sensitivity of a homeomorphic model for saccadic and vergence
eye movements, Comp. Prog. Biomed. 6 (1976) 108-116.
[34] X. Hu, H. Jiang, C. Gu, C. Li, D. Sparks, Reliability of Oculomotor Command Signals Carried by Individual
Neurons, PNAS (2007) 8137-8142.
[35] M.C. Khoo, Physiological Control Systems: Analysis, Simulation, and Estimation, IEEE Press, Piscataway, NJ,
2000.
[36] R.J. Leigh, D.S. Zee, The Neurology of Eye Movements, third ed., Oxford University Press, New York, 1999.
[37] A. Levin, J. Wyman, The viscous elastic properties of a muscle, Pro. Royal Soc., London (B) 101 (1927) 218-243.
[38] L. Ling, A. Fuchs, C. Siebold, P. Dean, Effects of initial eye position on saccade-related behavior of abducens
nucleus neurons in the primate, J. Neurophysiol. 98 (6) (2007) 3581-3599.
[39] S. Ramat, R.J. Leigh, D. Zee, L. Optican, What Clinical Disorders Tell Us about the Neural Control of Saccadic
Eye Movements, Brain (2007) 1-26.
[40] D.A. Robinson, Oculomotor control signals, in: G. Lennerstrand, P. Bach-y-Rita (Eds.), Basic Mechanisms of
Ocular Motility and their Clinical Implication, Pergamon Press, Oxford, 1975, pp. 337-374.
[41] D.A. Robinson, The Mechanics of Human Saccadic Eye Movement, J. Physiol., London 174 (1964) 245.
[42] D.A. Robinson, Models of mechanics of eye movements, in: B.L. Zuber (Ed.), Models of Oculomotor Behavior
and Control, CRC Press, Boca Raton, FL, 1981, pp. 21-41.
[43] R.C. Seidel, Transfer-function-parameter estimation from frequency-response data - A FORTRAN program,
(1975). NASA TM X-3286 Report.
[44] D.L. Sparks, R. Holland, B.L. Guthrie, Size and distribution of movement fields in the monkey superior colli-
culus, Brain Res. 113 (1976) 21-34.
[45] P.A. Sylvestre, K.E. Cullen, Quantitative analysis of abducens neuron discharge dynamics during saccadic and
slow eye movements, J. Neurophysiol. 82 (5) (1999) 2612-2632.
[46] J.A. Van Gisbergen, D.A. Robinson, S. Gielen, A quantitative analysis of generation of saccadic eye movements
by burst neurons, J. Neurophysiol. 45 (3) (1981) 417-442.
[47] R.B. Weber, R.B. Daroff, Corrective movements following refixation saccades: Type and control system
analysis, Vision Res. 12 (1972) 467-475.
[48] G. Westheimer, Mechanism of saccadic eye movements, AMA Arch. Ophthalmol. 52 (1954) 710-724.
[49] D.R. Wilkie, Muscle: Studies in Biology, vol. 11, Edward Arnold Ltd., London, United Kingdom, 1968.
[50] W. Zhou, X. Chen, Enderle, An Updated Time-Optimal 3rd-Order Linear Saccadic Eye Plant Model, Int.
J. Neural. Syst. 19 (5) (2009) 309-330.
