Despite considerable progress in mimicking human hand kinematics and control algorithms, robotic systems have long struggled to match human capabilities in dynamic settings, primarily due to ...

Researchers have created a revolutionary robotic skin that brings machines closer to human-like touch. Made from a flexible, low-cost gel material, this skin transforms the entire surface of a robotic ...

Multiple types of sensors are usually required for different types of touch; for example, one kind of sensor is required to detect temperature, another for pressure, and so on.

The hand in the Cambridge lab feels like a firm jelly – perhaps not unlike a slightly fleshy human hand – and, what is more, it has a remarkable ability to sense touch. But, unlike some other soft ...

Scientists have developed a low-cost, durable, highly sensitive robotic ‘skin’ that can be added to robotic hands like a glove, enabling robots to detect information about their surroundings in a way ...

DOI: 10.1038/s42256-025-01053-3 "The F-TAC Hand replicates the biological structure of the human hand by integrating 17 high-resolution tactile sensors across 70% of the palm's surface, achieving an ...

Although the robotic skin is not as sensitive as human skin, it can detect signals from over 860,000 tiny pathways in the material, enabling it to recognize different types of touch and pressure—like ...

Unlike other solutions for robotic touch, which usually work via sensors embedded in small areas and require different sensors to detect different types of touch, the entirety of the electronic skin ...

Multi-Modal Sensing The first step in creating the enhanced robotic skin was to find out how to reduce the number of sensors needed. To accomplish this task, the engineers turned towards multimodal ...

Tesollo is showing its Delto Gripper DG-5F humanoid robotic hand for a range of applications as it continues its global ...

Scientists decode imagined finger movements into robotic control, marking a game-changing moment in noninvasive brain tech.