In this episode, we talk about how a breakthrough with compact laser nano-printers can make them more accessible for researchers and how leveraging 3D printing technology and machine learning will provide essential insight for developing next-gen cochlear implants.
In this episode, we talk about how a breakthrough with compact laser nano-printers can make them more accessible for researchers and how leveraging 3D printing technology and machine learning will provide essential insight for developing next-gen cochlear implants.
In this episode, we talk about how starfish larvae inspired robots can revolutionize drug delivery and drones with flacon-like legs for landing.
In this episode, we talk about a breakthrough in biorobotics with self-reproducing xenobots and a leap in stable tissue engineering designs.
Active high-pass filters remove unwanted low-frequency signals while preserving useful higher frequencies. This article covers first- and second-order filter design, Sallen-Key and multiple-feedback topologies, and practical applications in audio electronics, instrumentation, and signal processing.
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with Xsens motion capture
A new glove with more than three dozen actuators across all five fingers and the palm, developed by Cornell researchers, aims to reduce swelling for people suffering from edema.
AI-powered artificial muscles made from pliable materials are reshaping recovery, from stroke rehabilitation to prosthetic design. These machines help people regain motion, strength, and confidence.
Researchers at ETH Zurich have developed an innovative hand exoskeleton that helps persons after stroke re-learn how to grasp. Its accordion-like structure makes it light, robust and easy to integrate into everyday life.
AI-powered artificial muscles made from pliable materials are reshaping recovery, from stroke rehabilitation to prosthetic design. These machines help people regain motion, strength, and confidence.
Paired with custom control software, Össur's powered knee prosthesis helped study participants sit, stand and walk more easily.
MIT CSAIL researchers enhance robotic precision with sophisticated tactile sensors in the palm and agile fingers, setting the stage for improvements in human-robot interaction and prosthetic technology.
In this episode, we discuss a breakthrough from ETH Zurich to mimic natural foot signals to the brain using state of the art neuroprosthetics.
In this episode, we talk about how a breakthrough with compact laser nano-printers can make them more accessible for researchers and how leveraging 3D printing technology and machine learning will provide essential insight for developing next-gen cochlear implants.
In this episode, we talk about how starfish larvae inspired robots can revolutionize drug delivery and drones with flacon-like legs for landing.
In this episode, we talk about a breakthrough in biorobotics with self-reproducing xenobots and a leap in stable tissue engineering designs.
In this episode, we talk about a system developed by MIT researchers to optimize new material development and LifeNabled - a non-profit organization - that leverages 3D printing technology and generative design to develop cost-effective, bespoke prosthetics.
LifeNabled volunteers and designers created a fully digital workflow to produce custom 3D printed prosthetic sockets with flexible inner liners. Now, 35 patients in the jungle of Guatemala are walking on the most advanced prosthetic and orthotic devices in the world.
6 minutes read
In this episode, we talk about the smart t-shirt that’ll track astronauts' vitals while they hang out in microgravity and a research effort that aims to study the physiology of freedivers to assist cardiac surgery patients
Wireless solutions are already playing an increasingly essential role in the future of global healthcare, but more innovation is needed.
4 minutes read
In this episode, we talk about how collaborative robotics can reinvent the construction industry and how software can be used to hack your brain.
SI-BONE, the leader in minimally invasive joint surgery, develop a novel osseointegrative lattice structure with nTopology. Using design automation, they applied it to a whole product family with 70+ unique part configurations in under 6 non-business hours while ensuring traceability.
6 minutes read
In this episode, we talk about how to speed up drug development with 3D printed blood vessels and how ear damage procedures are being revolutionized by 3D printed eardrum grafts.
MIT researchers employ machine learning to find powerful peptides that could improve a gene therapy drug for Duchenne muscular dystrophy.
In this episode, we talk about how MIT engineers have proven a way to detect the presence of origin for cancer cells in pee using nanoparticles, the robotic neck brace developed by Columbia University researchers, and a novel method to reduce the noise generated by airplanes during landing.
2 minutes read
With vaccination numbers increasing and the pandemic starting to decline, wireless contact tracing looks to adapt to new applications.
4 minutes read
with MVN Reports
3 minutes read
See how Amplify Additive focuses on fusion and osseointegration to manufacture implants.
3 minutes read
