The processing of input information is key to the intelligence of any robot. For biomedical robots the inputs are biomolecules, and analysis of these biochemical data will be crucial to the successful ...

This Collection supports and amplifies research related to SDG 3 - Good Health and Well-Being and SDG 9 - Industry, Innovation and Infrastructure. The emergence of brain organoids and intelligent ...

Biocomputing is transitioning to deployment, shifting from research to real-world use in healthcare and industrial biotechnology. Key opportunities include DNA and RNA computing for data storage and ...

Biocomputing sits at the frontier of technological innovation, using biological molecules, cells or tissues to carry out computational tasks rather than relying solely on silicon circuits. As a hybrid ...

A growing field of research known as organoid intelligence is trying to reproduce the human brain to take over AI and more. As generative artificial intelligence (AI) research rapidly spreads, a ...

The human brain is a master of computation. It’s no wonder that from brain-inspired algorithms to neuromorphic chips, scientists are borrowing the brain’s playbook to give machines a boost. Yet the ...

Most industries today are experiencing an unprecedented data deluge – and synthetic biology is no exception. Twenty years ago, a typical biological experiment generated 3-5 megabytes of information.

Megan Molteni reports on discoveries from the frontiers of genomic medicine, neuroscience, and reproductive tech. She joined STAT in 2021 after covering health and science at WIRED. You can reach ...

VEVEY, Switzerland--(BUSINESS WIRE)--FinalSpark, a pioneering Swiss biocomputing startup, has launched the first-ever online platform enabling global researchers to conduct experiments remotely on ...

In the original hit TV series Lost in Space, a human-like machine called Robot would execute commands only if they made sense. Otherwise, it would flail its arms and exclaim, “That does not compute!” ...