A possible answer in A. Tugui, D. Danciulescu, M.-S. Subtirelu (2019, The Biological as a Double Limit for Artificial Intelligence: Review and Futuristic Debate. INTERNATIONAL JOURNAL OF COMPUTERS COMMUNICATIONS & CONTROL, 14(2), 253-271, April 2019 https://doi.org/10.15837/ijccc.2019.2.3536).

http://univagora.ro/jour/index.php/ijccc/article/view/3536/pdf

Biocomputing—The invisible hand of AI?

"Fascinated by the secrets of medicine, in an informal discussion in 2014, we asked the famous surgeon I. Lascar, a professor at the University of Medicine and Pharmacy in Bucharest, what the secret was to a successful operation. Among the syntheses and content-related explanations, Professor Lascar pointed out that surgery is assisted, besides a number of strictly scientific factors, by a so-called invisible hand that contributes to the success of an operation and which all physicians rely on. In this context, the success of biocomputing research and development as part of the bio computer could be the catalyst for leaping to a level of AI that surprises us in terms of intelligent performance and behavior. Current achievements, such as the design of the biological transducer; the monitoring, programming, and behavioral control of the live cell (via logical operations AND, OR, and NOT); and technological challenges such as the decoding of live cell communication and the future development of a natural language of living cells (N2LC) used in biocomputing could turn biocomputing into the invisible hand of biological systems stretched towards artificial systems, especially AI."

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