Scientists study octopus arm mechanics to develop robotic systems with advanced flexibility and control capabilities.

check out [Guy Perez]’s design for an adjustable dovetail template that’s easy to produce with a 3D printer. It consists of ten separate pieces mounted on a T-rail, which enables them to slide ...

In contrast, octopus “brains” are distributed along the ... To describe the arm’s motion, the team developed simple muscle ...

creating a stretchy material that can be programmed to transform into 3D shapes. Perhaps the most impressive of all self-concealers is the mimic octopus (Thaumoctopus mimicus). Discovered in 1998 in ...

Instead, postdoctoral fellow Gabrielle Winters-Bostwick and graduate student Diana Neacsu took multiple sections along the octopus arm to create 3D reconstructions of cell distribution and gross ...

A research team has recently published a study titled "Topology, dynamics, and control of a muscle-architected soft arm," in ...

A team of engineers has developed a groundbreaking computer model that captures the complex muscle structure of an octopus ...

Mechanical engineering PhD candidate Arman Tekinalp, fellow graduate student Seung Hyun Kim, Professor Prashant Mehta , and ...

More affordable than ever, 3D printers are booming for personal, professional, and educational use. Here's everything to know before you buy one, along with the top models from our hands-on testing.

Their high-fidelity computational model is a milestone both in biology, where it can help explain the octopus's impressive capability, and engineering. "The computational model is a useful testbed for ...

Instead, postdoctoral fellow Gabrielle Winters-Bostwick and graduate student Diana Neacsu took multiple sections along the octopus arm to create 3D reconstructions of cell distribution and gross ...