Innovative sensor enhances robot tactile capabilities
Researchers from Queen Mary University of London, along with collaborators from China and USA, have developed a touch sensor to enhance tactile capabilities in robots, allowing it to ‘feel’ objects and adjust its grip accordingly.
Achieving human-level dexterity during manipulation and grasping has been a longstanding goal in robotics. To accomplish this, having a reliable sense of tactile information and force is essential for robots. A recent study, published in IEEE Robotics and Automation Letters, describes the L3 F-TOUCH sensor that enhances the force sensing capabilities of classic tactile sensors. The sensor is lightweight, low-cost and wireless, making it an affordable option for retrofitting existing robot hands and graspers.
The human hand can sense pressure, temperature, texture and pain. Additionally, the human hand can distinguish between objects based on their shape, size, weight and other physical properties. Many current robot hands or graspers are not even close to human hands as they do not have integrated haptic capabilities, complicating handling objects. Without knowledge about the interaction forces and the shape of the handled object, the robot fingers would not have any ‘sense of touch’, and objects could easily slip out of the robot hand’s fingers or even be crushed if they are fragile.
The study, led by Professor Kaspar Althoefer of Queen Mary University of London, has led to the L3 F-TOUCH — a high-resolution fingertip sensor, where L3 stands for Lightweight, Low-cost, wireLess communication. The sensor can measure an object’s geometry and determine the forces to interact with it. Unlike other sensors that estimate interaction forces via tactile information acquired by camera images, the L3 F-TOUCH measures interaction forces directly, achieving higher measurement accuracy.
“In contrast to its competitors that estimate experienced interaction forces through reconstruction from camera images of the deformation of their soft elastomer, the L3 F-TOUCH measures interaction forces directly through an integrated mechanical suspension structure with a mirror system achieving higher measurement accuracy and wider measurement range,” Althoefer said. “The sensor is physically designed to decouple force measurements from geometry information. Therefore, the sensed three-axis force is immune from contact geometry compared to its competitors. Through embedded wireless communications, the sensor also outperforms competitors with regards to being able to be integrated with robot hands.”
When the sensor touches the surface, a compact suspension structure enables the elastomer — a rubber-like material that deforms to measure high-resolution contact geometry exposed to an external force — to displace upon contact. To make sense of this data, the elastomer’s displacement is tracked by detecting the movement of a special marker, a so-called ARTag, making it possible to measure contact forces along the three major axes (x, y, and z) via a calibration process.
“We will focus our future work on extending the sensor’s capabilities to measure not only force along the three major axes but also rotational forces such as twist, which could be experienced during screw fastening while remaining accurate and compact,” Althoefer added. “These advancements can enable the sense of touch for more dynamic and agile robots in manipulation tasks, even in human–robot interaction settings, like for patient rehabilitation or physical support of the elderly.”
This breakthrough could pave the way for more advanced and reliable robotics in the future, as with the L3 F-TOUCH sensor, robots can have a sense of touch, making them more capable of handling objects and performing complex manipulation tasks.
New robotics and automation precinct opens in WA
The WA Government has officially opened what it says will be Australia's largest robotics and...
International robot federated learning project a success
The FLAIROP international research project has shown AI federated learning across multiple...
Rockwell to partner with Taurob to provide robotic inspection solutions
Rockwell Automation has announced it will partner with Austrian company Taurob to provide a...