Zaman, N. ., Tavakkoli, A. ., & Papachristos, C. . (2020). ‘Tele-robotics via an efficient immersive virtual reality architecture. Presented at the.
Nasif Zaman
Waisberg, E. ., Ong, J. ., Paladugu, P. ., Kamran, S. A., Zaman, N. ., Tavakkoli, A. ., & Lee, A. G. (2023). Applying generative adversarial network techniques to portable ophthalmic imaging. Eye, 37, 2580-2581.
Sarker, P. ., Zaman, N. ., Ong, J. ., Paladugu, P. ., Aldred, M. ., Waisberg, E. ., … Tavakkoli, A. . (2023). Test—retest reliability of virtual reality devices in quantifying for relative afferent pupillary defect. Translational Vision Science \& Technology, 12, 2-2.
Zaman, N. . (2021). EyeSightVR: An immersive and automated tool for comprehensive assessment of visual function. University of Nevada, Reno.
Waisberg, E. ., Ong, J. ., Zaman, N. ., Kamran, S. A., Lee, A. G., & Tavakkoli, A. . (2022). Stroboscopic augmented reality as an approach to mitigate gravitational transition effects during interplanetary spaceflight. International Journal of Aviation, Aeronautics, and Aerospace, 9, 6.
Zaman, N. ., Sarker, P. ., & Tavakkoli, A. . (2023). Calibration of head mounted displays for vision research with virtual reality. Journal of Vision, 23, 7-7.
Zaman, N. ., Tavakkoli, A. ., & Zuckerbrod, S. . (2020). A mixed reality system for modeling perceptual deficit to correct neural errors and recover functional vision. 269-274. IEEE.
Waisberg, E. ., Ong, J. ., Kamran, S. A., Zaman, N. ., Paladugu, P. ., Sarker, P. ., … Lee, A. G. (2023). Further characterizing the physiological process of posterior globe flattening in spaceflight associated neuro-ocular syndrome with generative adversarial networks. Journal of Applied Physiology, 134, 150-151.
Masalkhi, M. ., Waisberg, E. ., Ong, J. ., Zaman, N. ., Sarker, P. ., Lee, A. G., & Tavakkoli, A. . (2023). Apple vision pro for ophthalmology and medicine. Annals of Biomedical Engineering, 51, 2643-2646.
Aniruddha, P. ., Zaman, N. ., Tavakkoli, A. ., & Zuckerbrod, S. . (2019). A parametric perceptual deficit modeling and diagnostics framework for retina damage using mixed reality. 258-269. Springer International Publishing.