Adaptation, Machine Learning, and the Immune System: A Review Paper

Madhav Singh Solanki

doi:10.55524/ijircst.2021.9.6.3

Abstract

The immunologic system is a critical dynamic system whose goal it is to detect and eliminate foreign matter. In order to do any of this, this must be able to tell the difference across much particles (or antigens) and the particles self. The cells are able to perceive, learn, and retain patterns. By employing techniques of genetic engineering on a temporal scale fast enough seeing practically, the immune system may recognize novel forms need preprogramming. We give a good dynamical body's classification based on Jerne's phone system hypothesis that is simple to execute on a web page. This terminology is similar to Yorkshire's classification algorithm, a teaching students and computational tool. We explain how discrete - time systems may be used to describe simple releases of the algorithm is proposed, and we go through the immune and classifier systems in depth. We aim to learn more about how they do particular tasks by comparing them, as well as propose new methods that may be useful in learning systems.

Keywords

Adaptation, Controller, Data Set, Immune System, Machine learning.

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Cites this article as

M. S. Solanki "Adaptation, Machine Learning, and the Immune System: A Review Paper", International Journal of Innovative Research in Computer Science and Technology (IJIRCST), Vol-9, no.6, pp.13-17, 2021. Available from: https://doi.org/10.55524/ijircst.2021.9.6.3

Corresponding Author

Madhav Singh Solanki

SOEIT, Sanskriti University, Mathura, Uttar Pradesh, India (madhavsolanki.cse@sanskriti.edu.in)

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