MIT Develops Resilient Bug-Sized Robots that Can Withstand Wing Damage


In a recent study at MIT, researchers have developed resilient bug-sized robots that can endure significant wing damage. These robots possess the ability to autonomously adapt and continue functioning despite wing injuries, making them highly durable. The team drew inspiration from insects’ natural resilience to damage, enabling the robots to exhibit similar characteristics in challenging environments.

The robots use flexible, lightweight wings that can undergo severe damage and still allow the robot to fly effectively, showcasing their remarkable robustness. By mimicking the way insects withstand damage, these robots demonstrate a promising future in various applications, including search and rescue missions and environmental monitoring. This innovative approach could revolutionize the field of robotics by enhancing the adaptability and sustainability of small-scale robots in demanding situations.


The team’s accomplishment signifies a significant advancement in the development of small robots that can endure challenging conditions, showcasing the potential for future applications in real-world scenarios. With their ability to withstand wing damage, these bug-sized robots offer a glimpse into a future where autonomous robotic systems can navigate complex environments successfully, highlighting the importance of resilience in technological advancements.

Read the full story by: MIT News MIT News