This shape shifting robot is capable of shedding its own exoskeleton so it can better adapt to your needs. Primer was developed by researchers at the MIT Computer Science and Artificial Intelligence Laboratory (MIT CSAIL). The tiny magnetic bot "can don specially-treated sheets of plastic that form purpose-built shapes when heated" according to Mashable, rendering it able to carry out a variety of tasks without needing new tools.
The sheets basically change the shape of the robot and enable it to perform different functions. The shape shifting robot could, therefore, take on the form of anything from a small wheelbarrow to a miniature boat. Primer is magnetically controlled. When it goes into water it sheds its exoskeleton sheet and emerges to find another one.
Skin-Shedding Robots
MIT CSAIL's Primer is a Shape Shifting Robot That Changes Its Exoskeleton
Trend Themes
1. Shape Shifting Robots - The trend of shape shifting robots like Primer opens up opportunities for more adaptable and versatile robotic applications.
2. Exoskeleton Technology - The trend of exoskeleton technology, as demonstrated by Primer, offers disruptive innovation opportunities for industries such as healthcare and manufacturing to enhance physical capabilities and improve efficiency.
3. Magnetic Robotics - The emerging trend of magnetically controlled robots, exemplified by Primer, presents opportunities for advancements in precise and controlled manipulation in industries like logistics and construction.
Industry Implications
1. Robotics - The robotics industry can leverage shape shifting robots like Primer to create more adaptable and customizable robotic systems for various applications.
2. Healthcare - The healthcare industry can explore the use of exoskeleton technology, inspired by Primer, to aid in rehabilitation, assistive devices, and physical therapy for patients with mobility challenges.
3. Manufacturing - The manufacturing industry can adopt exoskeleton technology, similar to Primer, to enhance worker safety, ergonomics, and productivity during physically demanding tasks.