CZCRetinalProsthesis: Difference between revisions
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== Conclusions == | == Conclusions == | ||
== Reference == | |||
[1] Boinagrov, David, et al. "Photovoltaic pixels for neural stimulation: circuit models and performance." IEEE transactions on biomedical circuits and systems 10.1 (2016): 85-97. | |||
[2] Flores, Thomas, et al. "Optimization of return electrodes in neurostimulating arrays." Journal of neural engineering 13.3 (2016): 036010. | |||
[3] Palmer, D. A., and J. Sivak. "Crystalline lens dispersion." JOSA 71.6 (1981): 780-782. | |||
[4] Smith, George, Barbara K. Pierscionek, and David A. Atchison. "The optical modelling of the human lens." Ophthalmic and Physiological Optics 11.4 (1991): 359-369. | |||
[5] Liang, Junzhong, and David R. Williams. "Aberrations and retinal image quality of the normal human eye." JOSA A 14.11 (1997): 2873-2883. | |||
[6] Jones, Catherine E., et al. "Refractive index distribution and optical properties of the isolated human lens measured using magnetic resonance imaging (MRI)." Vision research 45.18 (2005): 2352-2366. | |||
[7] Golden, James R., et al. "Simulation of visual perception and learning with a retinal prosthesis." bioRxiv (2018): 206409. | |||
[8] Cottaris, Nicolas, et al. "A computational observer model of spatial contrast sensitivity: Effects of wavefront-based optics, cone mosaic structure, and inference engine." bioRxiv (2018): 378323. | |||
== Appendix == | == Appendix == | ||
Revision as of 06:48, 15 December 2018
Introduction
Background
Methods
Results
Conclusions
Reference
[1] Boinagrov, David, et al. "Photovoltaic pixels for neural stimulation: circuit models and performance." IEEE transactions on biomedical circuits and systems 10.1 (2016): 85-97. [2] Flores, Thomas, et al. "Optimization of return electrodes in neurostimulating arrays." Journal of neural engineering 13.3 (2016): 036010. [3] Palmer, D. A., and J. Sivak. "Crystalline lens dispersion." JOSA 71.6 (1981): 780-782. [4] Smith, George, Barbara K. Pierscionek, and David A. Atchison. "The optical modelling of the human lens." Ophthalmic and Physiological Optics 11.4 (1991): 359-369. [5] Liang, Junzhong, and David R. Williams. "Aberrations and retinal image quality of the normal human eye." JOSA A 14.11 (1997): 2873-2883. [6] Jones, Catherine E., et al. "Refractive index distribution and optical properties of the isolated human lens measured using magnetic resonance imaging (MRI)." Vision research 45.18 (2005): 2352-2366. [7] Golden, James R., et al. "Simulation of visual perception and learning with a retinal prosthesis." bioRxiv (2018): 206409. [8] Cottaris, Nicolas, et al. "A computational observer model of spatial contrast sensitivity: Effects of wavefront-based optics, cone mosaic structure, and inference engine." bioRxiv (2018): 378323.
Appendix
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