Our muscles are nature's actuators. The sinewy tissue is what generates the forces that make our bodies move. In recent years, engineers have used real muscle tissue to actuate "biohybrid robots" made ...

But MIT’s new muscle-tendon system changes that equation by bridging muscle to skeleton more efficiently. And the numbers ...

November 27, 2025) - During the "2025 Joint Emergency Rescue Drill for Concurrent Multi-Type Accidents in Complex Scenarios," the DEEP Robotics quadruped robot served as a core rescue force.

Flexion’s humanoid robot navigates outdoor terrain and cleans up litter autonomously using its new reinforcement learning ...

The operator no longer programs. RiA Ecosystem brings intelligence that analyzes, understands, and executes industrial tasks ...

Europe has launched its largest unmanned ground systems programme to date, Integrated Modular Unmanned Ground Systems 2 ...

OpenMind’s new BrainPack platform brings several core functions of robot autonomy into one modular unit. Instead of separate systems for sensing, mapping, and control, BrainPack combines advanced ...

Foxconn and Intrinsic will develop and test robotics solutions for use across a wide variety of common manufacturing tasks.

China’s progress in robotics shows what can happen when policy, public-private investment and innovation move in the same ...

Over the past decades, a growing number of robotics teams have started developing modular robots inspired by the ancient ...

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.

It's now actually not that unusual to see quadruped robots that have powered wheels for feet, allowing them to either walk or roll as the situation dictates. The modular D1 is different, though, in ...