Purpose: The purpose of this course is to provide graduate students with a broad perspective on robotic concepts and technologies applied to (and inspired by) themes of biomedical research and ...

Biomedical, bio-inspired, and micro robotics focuses on robotic systems that are closely aligned with biological systems. This includes both robotic systems that are human body-mounted and augment ...

Robotics has transformed minimally invasive surgery, providing greater precision, less pain, and faster recovery times for ...

Learn more about the self-healing hydrogel that could help improve biomedical tools.

Understanding smart materials is vital for advancing adaptable technologies, forming the foundation for breakthroughs in robotics, automation, and biomedical devices. This area of study explores the ...

Researchers from the School of Engineering of the Hong Kong University of Science and Technology (HKUST) have successfully developed the world's smallest multifunctional biomedical robot ...

“Lydia’s election to the National Academy of Engineering is a testament to her groundbreaking contributions to robotics, AI and biomedical computing,” said Luay Nakhleh, the William and Stephanie Sick ...

While rehabilitation robotics—devices that guide movement during therapy—have improved training for those with spinal ...

Fluidic Elastomer Actuators (FEAs) are lightweight and flexible systems, crucial in robotics and biomedical devices, with challenges in real-time monitoring. Researchers have developed a Dielectric ...

Focus: Biomedical Control of an Artificial Pancreas to Enhance Automated Insulin Delivery ... Wolkowicz studies problems in healthcare that could be solved by applying design, control theory, and ...

A group of researchers from Shibaura Institute of Technology (SIT) developed the Dielectric Elastomer Sensor (DES) to measure the pressure and vibration response in soft fluidic structures.