Submissions by Visitors - Jones 1
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Title: |
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Jones 1 |
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Date Submitted: |
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January 2001 |
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Submitted by: |
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Cameron L. Jones |
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Copyright: |
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Dr Cameron L. Jones |
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Address: |
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Dr. Cameron L. Jones
Centre for Mathematical Modelling & Chancellery
School of Mathematical Sciences
Swinburne University of Technology
John Street, Hawthorn, VIC 3122
AUSTRALIA
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Fax: |
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+613 9819 0821 |
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Email: |
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cameron.jones@swin.edu.au |
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Comments by the Submittor:
Title: The Biomathematics in Nanobiotechnology
Date: 2000
Artist: Cameron L. Jones
Image Size: 154,479 bytes
Image Dimensions: 480 x 360 pixels. Initial Rendering: 1920 x 1440 pixels.
Image Palette: Color
Image Description: I use the image of the branching fungus to represent the perfect paradigm of networks and growth through connectionism. This image reflects the idea principia underpinning current research effort in nanobiotechnology. In essence as researchers in this field, we're looking for how to control what grows from the earth, and then provide new tools and a set of suitable, scale-free 'languages' that connects growth and form with function - but of most import - harnesses programmability! For example, the emerging field of Nanobiotechnology offers new ways of looking at cellular interactions. The design of new techniques for fine control of intracellular communication at the most fundamental levels of biological organization will no doubt contribute towards the design of highly efficient, next-generation computational elements.
Copyright Info: © Copyright 2000 Cameron L. Jones. For reprint permission or to purchase high-resolution inkjet prints at any resolution, please contact Cameron L. Jones at the Centre for Mathematical Modelling, Swinburne University of Technology.
Email: cameron.jones@swin.edu.au
Print Source(s): None
Online Source: None
File Name: nanobiotech.jpg
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