Basic and Applied Visual Psychophysics Group
The term Psychophysics refers to the branch of psychology that is concerned with the relationship between the external physical stimulus and behavioural/perceptual decisions.

The Visual Psychophysics Group at the University of Plymouth develops and applies psychophysical methods, such as detection/discrimination threshold measurements or neuronal adaptation, to study visual perception in healthy subjects and clinical populations. The research interests of this group range from basic research to understand shape, object, colour, motion and face perception, to the development of efficient clinical tests for specific ocular diseases, such as amblyopia, age-related macular degeneration, and glaucoma.

More information on this research can be found on Gunnar Schmidtmann's research website

Key Publications: 

Jennings, B. J., Schmidtmann, G., Wehbé, F., Kingdom, F. A. A., & Farivar, R. (2019), Detection of distortions in images of natural scenes in mild traumatic brain injury patients. Vision Research, 161, 12-17

Schmidtmann, G., Kingdom, F. A. A., & Loffler, G. (2019). The processing of compound radial frequency patterns. Vision Research, 161, 63–74.

Schmidtmann, G., & Fruend, I. (2019), Radial frequency patterns describe a small and perceptually distinct subset of all possible planar shapes. Vision Research, 154, 122–130. 

Marín-Franch, I., Artes, P. H., Chong, L. X., Turpin, A., & Wall, M. (2018). Data obtained with an open-source static automated perimetry test of the full visual field in healthy adults. Data in brief, 21, 75-82.

Wall, M., Zamba, G. K., & Artes, P. H. (2018). The effective dynamic ranges for glaucomatous visual field progression with standard automated perimetry and stimulus sizes III and V. Investigative ophthalmology & visual science, 59(1), 439-445.

Mönter, V. M., Crabb, D. P., & Artes, P. H. (2017). Reclaiming the periphery: automated kinetic perimetry for measuring peripheral visual fields in patients with glaucoma. Investigative ophthalmology & visual science, 58(2), 868-875.

Joshi, M. R., Simmers A. J., Jeon S. T. (2016) ''Concurrent investigation of global motion and form processing in amblyopia: an equivalent noise approach.'' Investigative Ophthalmology and Visual Science, 57(11), 5015-5022.

Sharkawi, E., Artes, P. H., Oleszczuk, J. D., Bela, C., Achache, F., Barton, K., & Bergin, C. (2016). Systematic occlusion of shunts: control of early postoperative IOP and hypotony-related complications following glaucoma shunt surgery. Journal of glaucoma, 25(1), 54-61.

Joshi, M. R., & Falkenberg, H. K. (2015). ''Development of radial optic flow pattern sensitivity at different speeds.'' Vision Research, 110, 68-75.

Chauhan, B. C., Malik, R., Shuba, L. M., Rafuse, P. E., Nicolela, M. T., & Artes, P. H. (2014). Rates of glaucomatous visual field change in a large clinical population. Investigative ophthalmology & visual science, 55(7), 4135-4143.