Locomotive magnetic soft robots are categorized based on their structural characteristics into one-dimensional (1D), two-dimensional (2D), three-dimensional (3D), and fluidic types. Recently, Dr.

Miniature Underwater Robots (MURs) are revolutionizing how humans explore aquatic environments. However, achieving efficient propulsion in highly resistive underwater conditions remains a formidable ...

A KAIST research team has developed quadrupedal robot technology that not only enables walking by estimating terrain without ...

From industrial floors to humanoid helpers, advanced path planning in ROS2 is redefining how robots move safely and efficiently. Algorithms like Regulated Pure Pursuit and DAPF-RRT combine speed ...

A research team from the Robotic System Lab at the Swiss Federal Institute of Technology in Zurich (ETH Zurich) has developed a robot with legs and wheels. The scientists have used reinforcement ...

Bipedal robots have proved a challenging frontier for roboticists, with styles ranging from clunkers to lurchers to those seemingly falling over drunk. However, the AMBER lab at Texas A&M University ...

Innovative magnetic robots for steel bridge inspection utilize AI and advanced sensors, ensuring effective defect detection and structural health monitoring.

Dennis Hong is designing his Whole Skin Locomotion (WSL) mechanism to work on much the same principle as the pseudopod -- or cytoplasmic "foot" -- of the amoeba. Preliminary experiments show that a ...

[James Bruton] is on a quest to explore all the weird and wonderful methods of robot locomotion, and in his latest project created an omnidirectional walker that can move in any direction ...