By Gislin Dagnelie (auth.), Gislin Dagnelie (eds.)
Visual Prosthetics offers an in-depth research of the foundations of operation, present country, expected advancements, and practical elements of visible prosthetics restoring sight to visually impaired contributors. This quantity uniquely describes the human visible method in wellbeing and fitness and illness in a pedagogical and didactic demeanour, becoming to execs and researchers with a bioengineering historical past. Readers will discover a balanced review of electric, molecular chemical and artificial chromophore stimulation, as well as the biophysics and mental features of imaginative and prescient recovery. The publication also:
- Uniquely describes the human visible procedure in wellbeing and fitness and disease
- Unlike aggressive texts, covers electric, molecular chemical, and artificial chromophore stimulation of the visible system
- Addresses either the biophysics and the mental points of imaginative and prescient recovery, together with electrode interface and tissue activation, as well as sufferer visible reports and studying in simulated and experimental prosthetic vision
Professionals within the box of biomedical engineering and graduate and postgraduate researchers will locate Visual Prosthetics a priceless reference.
Read or Download Visual Prosthetics: Physiology, Bioengineering, Rehabilitation PDF
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Extra resources for Visual Prosthetics: Physiology, Bioengineering, Rehabilitation
Example text
Jonas JB, Schmidt AM, Muller-Bergh JA, et al. (1992), Human optic nerve fiber count and optic disc size. Invest Ophthalmol Vis Sci, 33(6): p. 2012–8. 20 G. Dagnelie 38. Kimble TD, Williams RW (2000), Structure of the cone photoreceptor mosaic in the retinal periphery of adult humans: analysis as a function of age, sex, and hemifield. Anat Embryol (Berl), 201(4): p. 305–16. 39. Kolb H, Fernandez E, Nelson R (2009), Facts and figures concerning the Human Retina, in WebVision – The Organization of the Retina and the Visual System, Jones BW, Editor.
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Subjects Implanted With the Argus™ II Retinal Prosthesis Are Able to Improve Performance in a Spatial-Motor Task. in ARVO Annual Mtg. 4. Arend LE, Timberlake GT (1986), What is psychophysically perfect image stabilization? Do perfectly stabilized images always disappear? J Opt Soc Am A, 3(2): p. 235–41. 5. Barry MP, Dagnelie G, Group AIS (2010), Use of the Argus™ II Retinal Prosthesis to Improve Visual Guidance of Fine Hand Motion. in ARVO Annual Mtg. 6. Battaglini PP, Galletti C, Fattori P (1993), Functional properties of neurons in area V1 of awake macaque monkeys: peripheral versus central visual field representation.