If you’re searching for a unique robot concept, look no further than the new Single-Actuator Wave robot created by researchers at Israel’s Ben-Gurion University of the Negev. They’ve built a ...
In a crowded room, we naturally move slower than in an empty space. Surprisingly, worms can show the exact opposite behavior: in an environment with randomly scattered obstacles, they tend to move ...
Developers working on the OpenWorm Project, an effort to create a virtual nematode worm in a computer, have attained an important milestone after successfully creating a software engine that drives ...
In C. elegans worms, a single neuron named HSN uses multiple chemicals and connections to orchestrate egg-laying and locomotion over the course of several minutes. A new MIT study that focuses on a ...
Tubificine worms are segmented worms that are capable of forming entangled blobs that behave as a single organism to adapt to extreme environmental conditions or migrate more efficiently. Individual ...
Scientists from the Graduate School of Information Science and Technology at Osaka University used animal location tracking along with artificial intelligence to automatically detect walking behaviors ...
In a crowded room, we naturally move slower than in an empty space. Surprisingly, worms can show the exact opposite behaviour: in an environment with randomly scattered obstacles, they tend to move ...
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