Graham Kendall
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Professor Graham Kendall

Professor Graham Kendall is the Provost and CEO of The University of Nottingham Malaysia Campus (UNMC). He is also a Pro-Vice Chancellor of the University of Nottingham.

He is a Director of MyResearch Sdn Bhd, Crops for the Future Sdn Bhd. and Nottingham Green Technologies Sdn Bhd. He is a Fellow of the British Computer Society (FBCS) and a Fellow of the Operational Research Society (FORS).

He has published over 230 peer reviewed papers. He is an Associate Editor of 10 journals and the Editor-in-Chief of the IEEE Transactions of Computational Intelligence and AI in Games.

News

If you are interested in hyper-heuristics, take a look at my publications in this area
http://bit.ly/efxLGg
I have published a number of papers on Cutting and Packing
http://bit.ly/dQPw7T

Latest Blog Post

Snooker: Celebrating 40 years at the Crucible

Random Blog Post

Bin Packing Made Easier?

Publication(s)

EnHiC: An enforced hill climbing based system for general game playing
http://bit.ly/1VOTCY2
Iterated Local Search vs. Hyper-heuristics: Towards General-Purpose Search Algorithms
http://bit.ly/gWFcuw
Chapter 4: An Investigation of Automated Planograms Using a Simulated Annealing Based Hyper-Heuristic
http://bit.ly/1cJv7H4
Frequency analysis for dendritic cell population tuning
http://bit.ly/go1Ihk

Graham Kendall: Details of Requested Publication


Citation

Terrazas, G; Krasnogor, N; Kendall, G and Gheorghe, M Automated tile design for self-assembly conformations. In Proceedings of the 2005 IEEE Congress on Evolutionary Computation, pages 1808-1814, 2005.


Abstract

Self-assembly is a powerful autopoietic mechanism ubiquitous throughout the natural world. It may be found at the molecular scale and also at astronomical scales. Self-assembly power lays in the fact that it is a distributed, not necessarily synchronous, control mechanism for the bottom-up manufacture of complex systems. Control of the assembly process is shared across a myriad of elemental components, none of which has either the storage or the computation capabilities to know and follow a master plan for the assembly of the intended system. In this paper we present an evolutionary algorithm which is capable of programming the so called "Wang tiles" for the self-assembly of two-dimensional squares.


pdf

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doi

The doi for this publication is 10.1109/CEC.2005.1554907 You can link directly to the original paper, via the doi, from here

What is a doi?: A doi (Document Object Identifier) is a unique identifier for sicientific papers (and occasionally other material). This provides direct access to the location where the original article is published using the URL http://dx.doi/org/xxxx (replacing xxx with the doi). See http://dx.doi.org/ for more information



URL

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Bibtex

@INPROCEEDINGS{tkkg2005, author = {G. Terrazas and N. Krasnogor and G. Kendall and M. Gheorghe},
title = {Automated tile design for self-assembly conformations},
booktitle = {Proceedings of the 2005 IEEE Congress on Evolutionary Computation},
year = {2005},
pages = {1808--1814},
abstract = {Self-assembly is a powerful autopoietic mechanism ubiquitous throughout the natural world. It may be found at the molecular scale and also at astronomical scales. Self-assembly power lays in the fact that it is a distributed, not necessarily synchronous, control mechanism for the bottom-up manufacture of complex systems. Control of the assembly process is shared across a myriad of elemental components, none of which has either the storage or the computation capabilities to know and follow a master plan for the assembly of the intended system. In this paper we present an evolutionary algorithm which is capable of programming the so called "Wang tiles" for the self-assembly of two-dimensional squares.},
doi = {10.1109/CEC.2005.1554907},
keywords = {self assembly, evolutionary algorithm},
owner = {gxk},
timestamp = {2011.01.02},
webpdf = {http://www.graham-kendall.com/papers/tkkg2005.pdf} }