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

TL;DR

This paper reviews control theory applications in simulating and developing prosthetic sense organs for vision, taste, and odor, emphasizing the importance of simulation and control modeling in creating effective artificial sensory systems.

Contribution

It provides a theoretical overview of control techniques used in artificial sense organs, integrating simulation methods to mimic biological sensory functions.

Findings

Control modeling is essential for prosthetic sensory system performance.

Simulation techniques aid in designing biologically efficient artificial organs.

Fusion of artificial sense organs advances prosthetic technology.

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 efficacies of biologically active sensory organs. Keywords: virtual reality, prosthetic vision, artificial