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The general concept of artificial machines capable of producing copies of themselves dates back at least several hundred years. An early reference is an anecdote regarding the philosopher René Descartes, who suggested to Queen Christina of Sweden that the human body could be regarded as a machine; she responded by pointing to a clock and ordering "see to it that it reproduces offspring."
An activity in the field of robots is the self-replication of machines. Since all robots (at least in modern times) have a fair number of the same features, a self-replicating robot (or possibly a hive of robots) would need to do the following: Obtain construction materials; Manufacture new parts including its smallest parts and thinking apparatus
Douglas Blackiston and Sam KriegmanYou might have missed the debut of the Xenobots last year when the world was falling apart, but they made quite a splash in the science and tech community. These ...
Scientists in Boston have created living robot cells manipulated to reproduce themselves. Jericka Duncan explains what this historic discovery could mean for humanity.
Scientists have created living robots from human cells that can move around in a lab dish and may one day be able to help heal wounds or damaged tissue, a study says.
Xenobots are composed solely of frog cells, making them biodegradable and environmentally friendly robots. Unlike traditional technologies, xenobots do not generate pollution or require external energy inputs during their life-cycle.
A selection of simulated "swimbots" Artificial life (ALife or A-Life) is a field of study wherein researchers examine systems related to natural life, its processes, and its evolution, through the use of simulations with computer models, robotics, and biochemistry. [1]
Engineers are increasingly creating artificial robots out of real, living tissue and cells Scientists say regulation is urgently required for ‘living robots’ Skip to main content