Researchers at the Improbable AI Lab at the Massachusetts Institute of Technology (MIT) have developed a two-fingered robotic hand dubbed the Everyday Finger. This precision-engineered device is intended to perform a wide range of everyday tasks, moving closer and closer to the capabilities of the human hand.
The Everyday Finger is distinguished by its compact design and its ability to perform delicate and robust manipulations. Unlike other models on the market, which tend to be bulkier, this device allows operation with tools designed for humans, which significantly expands its usefulness in home and work environments.
Strong and fast two-finger robotic hand
This MIT project is based on a new architecture of serial elastic actuators, which gives the Everyday Finger a unique combination of strength, speed, and adaptability. These actuators allow the robotic hand to perform tasks such as lifting plates, manipulating flat objects like papers, and even handling delicate fruits like strawberries, all without compromising its structural integrity.
Tests conducted with the Everyday Finger have demonstrated its effectiveness in real-life situations, validating its ability to meet everyday challenges. In a controlled environment, the robotic finger was able to pick up and place plates on a shelf, manipulate flat napkins and pick up strawberries without damaging them, highlighting its precision and versatility. You can see all of that in the video below.
The robotic hand can perform a variety of tasks. Source: Everydayfinger
The team of MIT researchers, led by Rubén Castro Ornelas, stresses that this breakthrough could pave the way for a new generation of domestic and assistive robots and assistive robots capable of interacting safely and effectively in spaces designed for humans.
What’s in store for the Everyday Finger?
Although the Everyday Finger already shows outstanding performance, MIT researchers continue to work on further improvements. In the future, they plan to develop versions with more fingers and advanced functions, which could make this device a standard in service and assistance robotics.
This breakthrough underscores MIT’s commitment to innovation in robotics. innovation in roboticsleading the development of technologies that could transform the way we interact with robots in everyday life.
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Source and photo: Everydayfinger
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