Indian Journal of Science and Technology
DOI: 10.17485/ijst/2017/v10i3/110621
Year: 2017, Volume: 10, Issue: 3, Pages: 1-6
Original Article
M. Sadiq Ali Khan*, Khaliq Khanzada and Huma Jamshed
Department of Computer Science, University of Karachi, Karachi–75270, Pakistan; [email protected]
*Author for correspondence
M. Sadiq Ali Khan
Department of Computer Science, University of Karachi, Karachi–75270, Pakistan; [email protected]
Cellular automata have proved many of its capabilities and have bestowed a lot in many fields. With the emergence of CA, fabric pattern production has increased in less amount of time. For weaving, cellular automata start with some pattern, then continues with a sequence of steps to produce a new pattern or to change the colour of the cell in a lattice, by using particular transition rules. The main purpose of using cellular automata algorithm as it provides the superlative edge maps and the outstanding quality with one pixel wide edge, with edges having no breaks. We assessed cellular automata capabilities and CA a lot contributions in pattern generation, transformation, and data processing. This research paper reflects the integration of cellular automata across different disciplines. In this paper, we assess the computationally enriched CA rules facilitating spot detection in the study of medical images for cancer diagnosis. The dynamic behaviour of CA increases the scope of transformation and makes it practical for morphing. CA provides prediction of protein structural class and processes dynamic simulation of protein. Flexibility of CA facilitates parallel processing using VLSI, colour graph modelling the linear rules, and its exercise in fabric weaving.
Keywords: Cellular Automata, Dynamic Behaviour, Medical Images, Morphing, Parallel Processing, VLSI
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