Difference between revisions of "Molecular Artificial Intelligence (AI)"
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From bacteria following simple chemical gradients1 to the brain distinguishing complex odour information2, the ability to recognize molecular patterns is essential for biological organisms. This type of information-processing function has been implemented using DNA-based neural networks. * [http://www.nature.com/articles/s41586-018-0289-6 Scaling up molecular pattern recognition with DNA-based winner-take-all neural networks | California Institute of Technology - Cherry, K., Qian, L.], 4 July 2018 | From bacteria following simple chemical gradients1 to the brain distinguishing complex odour information2, the ability to recognize molecular patterns is essential for biological organisms. This type of information-processing function has been implemented using DNA-based neural networks. * [http://www.nature.com/articles/s41586-018-0289-6 Scaling up molecular pattern recognition with DNA-based winner-take-all neural networks | California Institute of Technology - Cherry, K., Qian, L.], 4 July 2018 | ||
Revision as of 21:53, 15 July 2018
From bacteria following simple chemical gradients1 to the brain distinguishing complex odour information2, the ability to recognize molecular patterns is essential for biological organisms. This type of information-processing function has been implemented using DNA-based neural networks. * Scaling up molecular pattern recognition with DNA-based winner-take-all neural networks | California Institute of Technology - Cherry, K., Qian, L., 4 July 2018
