The field of robotics is undergoing a profound transformation driven by rapid advances in artificial intelligence, particularly large language models and ...

An autonomous underwater glider is giving us a new and effective way to track sperm whales by tuning into their clicks and ...

Current AI guardrails are inadequate for physical robots. New multi-layered safety frameworks could become essential as ...

Perception: with the use of deep learning, AI robots can perceive and respond to their environments.This enables a variety of ...

The effort to "align" AI with human values is falling dangerously short in robotic systems, according to researchers from Penn Engineering ...

Simple ant-like robots collectively build or demolish structures without central control, just by tuning two parameters - ...

Robotically assembled building blocks could be a more environmentally friendly method for erecting large-scale structures ...

As the era of Physical AI unfolds, high-quality data has become the "new infrastructure" driving robotic evolution. However, ...

Researchers have completed the first in-space demonstration of a deep learning method that accelerates trajectory optimization for the Astrobee free-flying robot aboard the International Space Station ...

Project CETI has deployed a new underwater glider that can monitor whales for longer than the organization's previous methods ...

X-1 robotic system uses humanoids and drones, combining land and air abilities, to tackle rescue missions too dangerous for ...

Recent progress in soft materials, fabrication, and bioinspired design has significantly expanded the capabilities of soft robots in locomotion, ...