publication . Preprint . 2011

Simulation Techniques and Prosthetic Approach Towards Biologically Efficient Artificial Sense Organs- An Overview

Neogi, Biswarup; Ghosal, Soumya; Mukherjee, Soumyajit; Das, Achintya; Tibarewala, D. N.;
Open Access English
  • Published: 07 Nov 2011
Abstract
An overview of the applications of control theory to prosthetic sense organs including the senses of vision, taste and odor is being presented in this paper. Simulation aspect nowadays has been the centre of research in the field of prosthesis. There have been various successful applications of prosthetic organs, in case of natural biological organs dis-functioning patients. Simulation aspects and control modeling are indispensible for knowing system performance, and to generate an original approach of artificial organs. This overview focuses mainly on control techniques, by far a theoretical overview and fusion of artificial sense organs trying to mimic the eff...
Subjects
free text keywords: Computer Science - Robotics, Computer Science - Systems and Control
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81 references, page 1 of 6

[15] Cha K, Horch K, Normann RA. Mobility performance with a pixelized vision system.Vision Res., 1992; 32: 1367-72, In IFMBE Proc. World Congr. Med. Phys. Biomed. Eng., Sydney, Australia, Aug. 24-29, 2003. [OpenAIRE]

[17] Hallum LE, Suaning GJ, Taubman DS, Lovell NH. Simulated prosthetic visual fixation, saccade, and smooth pursuit. Vision Res., 2005; 45: 775-88. [OpenAIRE]

[18] Lise GA, Eric T, Richard F. Imaging plasticity in cochlear implant patients. Audiol. Neuro-Otology, 2001: 6; 381-93.

[19] Karni A, Sagi D.The time course of learning a visual skill. Nature. 1993; 365: 250-52. [OpenAIRE]

[20] Sagi D, Tanne D .Perceptual learning: Learning to see. Current Opinion Neurobiol., 1994; 4: 195-99. [OpenAIRE]

[21] Tsodyks M, Adini Y, Sagi D.Associative learning in early vision. Neural Networks. 2004; 17: 823-32. [OpenAIRE]

[22] Amedi A, Raz N, Pianka P, Malach R, Zohary E. Early visual cortex activation correlates with superior verbal memory performance in the blind. Nature Neurosci., 2003; 6: 758-66. [OpenAIRE]

[35] Cha K, Horch K, Normann R. Mobility performance with a pixelised vision system. Vision Res. 1992; 32: 1367-72. [OpenAIRE]

[36] Cha K, Horch K, Normann R. Simulation of a phosphene-based visual field: Visual acuity in a pixelized vision system. Ann Biomed Eng. 1992; 20: 439-49. [OpenAIRE]

[37] Cha K, Horch K, Normann R. Reading speed with a pixelized vision system. J Op Soc Am. 1992; 9: 673-77. [OpenAIRE]

[38] Hayes JS, Yin VT, Piyathaisere D, Weiland JD, Humayun MS, Dagnelie G. Visually Guided Performance of Simple Tasks Using Simulated Prosthetic Vision. Artificial Organs.2003 ; 27: 1016-28.

[39] Thompson RW, Barnett GD, Humayun MS, Dagnelie G. Facial Recognition Using Simulated Prosthetic Pixelized Vision. Invest. Ophthalmol. Vis. Sci.2003; 44: 5035-42.

[40] Chen SC, Lovell NH , Suaning GJ. Effect on Prosthetic Vision Visual Acuity by Filtering Schemes, Filter Cut-off Frequency and Phosphene Matrix: A Virtual Reality Simulation: Proceedings of the 26th Annual International Conference of the IEEE EMBS San Francisco, CA, USA,2004; 4201-04.

[41] Hallum L, Suaning G, Taubman D, Lovell N. Simulated prosthetic visual fixation, saccade, and smooth pursuit; and the use of nontrivial image processing to effect improved prosthetic vision. Vision Research. 2004; accepted.

[42] Bondarko VM , Danilova MV. What spatial frequency do we use to detect the orientation of a Landolt C?. Vision Research. 1997; 37: 2153-56. [OpenAIRE]

81 references, page 1 of 6
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