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A T Bahill

Showing results (11-20 of 24) with videos related to

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Investigative Ophthalmology & Visual Science|July 1, 1985
Learning to track predictable target waveforms without a time delayD E McHugh, A T Bahill
IEEE Transactions on Bio-Medical Engineering|March 1, 1983
Frequency limitations and optimal step size for the two-point central difference derivative algorithm with applications to human eye movement dataA T Bahill, J D McDonald
Computer Programs in Biomedicine|August 1, 1975
Computer simulation of overshoot in saccadic eye movementsA T Bahill, M R Clark, L Stark
Vision Research|January 1, 1980
Smooth pursuit eye movements in response to unpredictable target waveformsA T Bahill, M J Iandolo, B T Troost
Computer Programs in Biomedicine|July 1, 1976
Parametric sensitivity analysis of a homeomorphic model for saccadic and vergence eye movementsF K Hsu, A T Bahill, L Stark
Experimental Neurology|July 1, 1975
Dynamic overshoot in saccadic eye movements is caused by neurological control signed reversalsA T Bahill, M R Clark, L Stark
Archives of Neurology|March 1, 1978
Glissadic overshoots are due to pulse width errorsA T Bahill, F K Hsu, L Stark
Investigative Ophthalmology & Visual Science|July 1, 1981
Variability and development of a normative data base for saccadic eye movementsA T Bahill, A Brockenbrough, B T Troost
Biological Cybernetics|January 1, 1982
Frequency limitations of the two-point central difference differentiation algorithmA T Bahill, J S Kallman, J E Lieberman
IEEE Transactions on Bio-Medical Engineering|November 1, 1980
Linear homeomorphic model for human movementA T Bahill, J R Latimer, B T Troost
Pageof 3

Showing results (11-20 of 24) with videos related to

Sort By:
Pageof 3
Investigative Ophthalmology & Visual Science|July 1, 1985
Learning to track predictable target waveforms without a time delayD E McHugh, A T Bahill
IEEE Transactions on Bio-Medical Engineering|March 1, 1983
Frequency limitations and optimal step size for the two-point central difference derivative algorithm with applications to human eye movement dataA T Bahill, J D McDonald
Computer Programs in Biomedicine|August 1, 1975
Computer simulation of overshoot in saccadic eye movementsA T Bahill, M R Clark, L Stark
Vision Research|January 1, 1980
Smooth pursuit eye movements in response to unpredictable target waveformsA T Bahill, M J Iandolo, B T Troost
Computer Programs in Biomedicine|July 1, 1976
Parametric sensitivity analysis of a homeomorphic model for saccadic and vergence eye movementsF K Hsu, A T Bahill, L Stark
Experimental Neurology|July 1, 1975
Dynamic overshoot in saccadic eye movements is caused by neurological control signed reversalsA T Bahill, M R Clark, L Stark
Archives of Neurology|March 1, 1978
Glissadic overshoots are due to pulse width errorsA T Bahill, F K Hsu, L Stark
Investigative Ophthalmology & Visual Science|July 1, 1981
Variability and development of a normative data base for saccadic eye movementsA T Bahill, A Brockenbrough, B T Troost
Biological Cybernetics|January 1, 1982
Frequency limitations of the two-point central difference differentiation algorithmA T Bahill, J S Kallman, J E Lieberman
IEEE Transactions on Bio-Medical Engineering|November 1, 1980
Linear homeomorphic model for human movementA T Bahill, J R Latimer, B T Troost
Pageof 3