Nonlinear Sciences – Chaotic Dynamics
Scientific paper
2003-07-03
Nonlinear Sciences
Chaotic Dynamics
6 pages, 8 figures, Paper presented at ICIAM - 5th International Congress on Industrial and Applied Mathematics, 7-11th July,
Scientific paper
This paper introduces a new method to perform signal processing using cells or atoms to synthesize variation in digital data stored in optical format. Interfacing small-scale biological or chemical systems with information stored on CD, DVD and related disc media has been termed molecular media. This is defined as micron or nanoscale interference and/or augmentation of optical data translation with a specific focus on sound and image processing. The principle of this approach uses cells with different morphology and size, or atom clusters to geometrically alter the way that binary information is translated into an output signal. These experiments demonstrate that living and non-living, micron-sized cellular systems like bacteria, fungi or yeast and chemical particles, clusters, emulsions or atom arrays having micron or nanosize dimensions can be successfully interfaced with traditional computing devices. This results in multiple hybrid, yet functional information processing devices that can be understood as a molecular computer that demonstrates a plurality of useful functions.
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