Why aren’t there more robots in homes? This a surprising complex question -- and our homes are surprisingly complex places. A big part of the reason autonomous systems are thriving on warehouse and ...

Topological complexity is a central concept that bridges the abstract methodologies of algebraic topology with the practical challenges of robot motion planning. It provides a numerical invariant that ...

Explainability and traceability of AI-based software are crucial elements for the safe deployment and successful certification of automated vehicles. TNO’s hybrid AI approach enhances the reasoning ...

One of the jobs for which robots are best suited is the tedious, repetitive “pick and place” task common in warehouses — but humans are still much better at it. UC Berkeley researchers are picking up ...

The act of picking up a coffee cup from a table, despite being relatively simple for a human being, actually involves extremely complex calculations as we spontaneously plan a trajectory around ...

Time-optimal motion planning represents a critical area in robotics research, focusing on the design of trajectories that minimise execution time while respecting kinematic and dynamic constraints.

The process of bringing collaborative capabilities to industrial robots first began appearing on the automation scene about three years ago when we saw some of the first demonstrations of Realtime ...

Qualcomm has just announced a full suite of robotics technologies at CES 2026. The company says that its general-purpose ...