Video Game-Playing Robots

University of Maryland Researchers Launch Super Mario-Playing Robot

Mechanical engineer Ryan Sochol and his team of researchers at the University of Maryland have built an incredibly dexterous robotic hand. In fact, the 3D-printed hand is so sophisticated and agile that it was able to beat the first level of Super Mario Bros.

The soft, three-fingered robot is capable of handling a Nintendo controller, manipulating its buttons and directional pad in the same manner that a human would. The key to achieving this innovation was Sochol's invested interest in soft robotics. In addition to the hand, Sochol has also designed two soft robotic turtles using the same 3D-printing technology.

No doubt, this high-functioning robotic hand presents exciting news for the world of science and robotic engineering, particularly for those researchers seeking out innovative solutions for prosthetic limb design.
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Trend Themes
1. Soft Robotics - The development of dexterous soft robotics presents opportunities for prosthetic limb design.
2. Robotic Gaming - The creation of game-playing robots opens up possibilities for innovative gaming experiences and competitions.
3. 3D Printed Robotics - The use of 3D printing technology in robotics creates opportunities for more efficient and customizable designs.
Industry Implications
1. Medical Devices - Soft robotic technology can disrupt the prosthetic limb industry by providing more advanced and human-like solutions.
2. Gaming - The development of game-playing robots can revolutionize the gaming industry by offering new and engaging experiences.
3. Additive Manufacturing - The use of 3D printing in robotics can transform the manufacturing industry by allowing for faster and more cost-effective production.

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