Controlling microrobots with extreme precision is vital in delicate surgical procedures, but traditional feedback systems are bulky and externally dependent. Now, researchers have developed a tiny surgical robot that sees and corrects its movements from within. By embedding a miniature camera and using internal visual tracking, the system enables real-time self-correction during motion, eliminating the need for external sensors. With onboard closed-loop control, this origami-inspired robot achieved micrometer-level accuracy and stability-even under external forces. The innovation marks the first demonstration of internal visual feedback in micro-robotic systems and paves the way for compact, autonomous surgical tools capable of…
Disclaimer
We strive to uphold the highest ethical standards in all of our reporting and coverage. We 5guruayurveda.com want to be transparent with our readers about any potential conflicts of interest that may arise in our work. It’s possible that some of the investors we feature may have connections to other businesses, including competitors or companies we write about. However, we want to assure our readers that this will not have any impact on the integrity or impartiality of our reporting. We are committed to delivering accurate, unbiased news and information to our audience, and we will continue to uphold our ethics and principles in all of our work. Thank you for your trust and support.
Website Upgradation is going on. For any glitch kindly connect at 5guruayurveda.com
