Analysts project the global neuromorphic computing market to skyrocket – from roughly $7.5 billion in 2024 to nearly $59 ...

Neuromorphic engineering is an interdisciplinary field that combines principles from neuroscience, computer science, and electrical engineering to design artificial neural systems, often referred to ...

Researchers at Linköping University have built artificial neurons from conductive plastics that replicate up to 17 biological ...

An artificial neuron made of conductive plastics that can perform advanced functions similar to those of biological nerve ...

Researchers have developed the first metal–organic framework (MOF) neuron that mimics brain-like behavior in aqueous ...

Xiang Shuiying was born in 1986 in Suichuan, Jiangxi. After graduating from Suichuan High School in 2003, she enrolled in Southwest Jiaotong University, where she began her studies in communication ...

Neuromorphic computing is an area of engineering that seeks to emulate the biophysical architecture of our nervous system. Such models can take a variety of forms including hardware chips composed of ...

Artificial plastic neurons mimic brain-like activity, showing advanced signal processing and potential for breakthroughs in ...

“Reverse engineering the brain by mimicking the structure and function of neuronal networks on a silicon integrated circuit was the original goal of neuromorphic engineering, but remains a distant ...

Titans of the tech field will go head to head to convince each other of where they believe the future of computing lies. Neuromorphic Computing and Engineering editorial board members Kwabena Boahen ...

Although today’s computers can perform superhuman feats, even the best are no match for human brains at tasks like processing speech. But as Jessamyn Fairfield explains, a new generation of ...