Neurobiologists have shown that insect limbs can move without muscles -- a finding that may provide engineers with new ways to improve the control of robotic and prosthetic limbs. Neurobiologists from ...

(Nanowerk News) Neurobiologists from the University of Leicester have shown that insect limbs can move without muscles – a finding that may provide engineers with new ways to improve the control of ...

Adaptability explains why insects spread so widely and why they are the most abundant animal group on earth. Insects exhibit resilient and flexible locomotion, even with drastic changes in their body ...

Long, heavy limbs such as arms or legs differ fundamentally from short, light limbs such as fingers in their ability to execute fast movements. While the central nervous system has to actively control ...

Modern prostheses have come a long way from their hand hook and pegleg predecessors. Although they look a lot more like the real thing, they are still lacking in the natural feel department. To ...

Scientists are unraveling the secrets behind insect flight, revealing the complex mechanics of their wing hinges. Caltech researchers, led by Professor Michael Dickinson, discovered that 12 tiny ...

The world is edging closer to creating fully functional prosthetic limbs, with the first clinical bionic attachment connected directly to the nervous and skeletal systems, plus artificial intelligence ...

Adaptability explains why insects spread so widely and why they are the most abundant animal group on earth. Insects exhibit resilient and flexible locomotion, even with drastic changes in their body ...