Here’s an interesting comment from MIT’s Alfonso Parra Rubio, “Treating soft versus hard robotics is a false dichotomy.” For, I suppose, obvious reasons, thinking around technology tends to be a ...

Multifunctional fluidic units generate coordinated motion and sensing in soft robots by combining actuation, switching, and oscillation in one module, reducing reliance on electronic control.

Engineers created a catapillar-shaped robot that splits into segments and reassembles, hauls cargo, and crawls through twisting courses. Engineers at Princeton and North Carolina State University have ...

The robot is made of segments that can fold into a flat disk and extend into a cylinder. Partial folds bend the robot and allow for motion and steering. Engineers at Princeton and North Carolina State ...

If a soft-bodied robot uses rigid actuators to move its body, then it isn't really soft now, is it? An experimental new caterpillar-inspired bot gets around that conundrum by using soft, collapsible ...

In a laboratory in Connecticut, a palm-sized silicone robot scrunches up its body to inch forward in a caterpillar-like motion. A brick tips over onto its leg, trapping it as it struggles to move on.

Robotic technology is advancing rapidly, and researchers are exploring new ways to make robots more functional and environmentally friendly. One breakthrough comes from scientists at Westlake ...