Blog

Archive for the ‘cyborgs’ category: Page 16

Jul 28, 2023

Tiny Thermoelectric Device Restores Thermal Perception in Phantom Limb

Posted by in categories: augmented reality, biotech/medical, cyborgs, satellites, wearables

Summary: Researchers created a revolutionary tiny and efficient thermoelectric device, which can help amputees feel temperature with their phantom limbs.

Known as the wearable thin-film thermoelectric cooler (TFTEC), this device is lightweight, incredibly fast, and energy-efficient, potentially revolutionizing applications such as prosthetics, augmented reality haptics, and thermally-modulated therapeutics. Additionally, this technology has potential in industries like electronics cooling and energy harvesting in satellites.

The study conducted to test the TFTEC demonstrated its ability to elicit cooling sensations in phantom limbs, doing so significantly faster, with more intensity, and less energy than traditional thermoelectric technology.

Jul 23, 2023

Elon Musk wants Tesla and Neuralink to build a cyborg body for amputees

Posted by in categories: biotech/medical, cyborgs, Elon Musk, neuroscience

The visionary CEO says his companies could one day offer hope to amputees by giving them a prosthetic limb that could one day be better than a biological one.

Jul 22, 2023

Timelapse of Future BIOTECHNOLOGY

Posted by in categories: bioengineering, bioprinting, biotech/medical, chemistry, cyborgs, food, robotics/AI, transhumanism

What happens when humans begin combining biology with technology, harnessing the power to recode life itself.

What does the future of biotechnology look like? How will humans program biology to create organ farm technology and bio-robots. And what happens when companies begin investing in advanced bio-printing, artificial wombs, and cybernetic prosthetic limbs.

Continue reading “Timelapse of Future BIOTECHNOLOGY” »

Jul 21, 2023

This robotic arm study is preparing us for our cyborg future

Posted by in categories: cyborgs, robotics/AI

A new study at the University of Tokyo aims to find out how people feel using robotic arms — and sharing them with others.

Jul 18, 2023

Bionic Breakthrough: Revolutionary Self-Sensing Electric Artificial Muscles

Posted by in categories: biotech/medical, cyborgs, robotics/AI, transhumanism

Queen Mary University researchers have engineered a self-sensing, variable-stiffness artificial muscle that mimics natural muscle characteristics. The breakthrough has significant implications for soft robotics and medical applications, moving a step closer to human-machine integration.

In a study published on July 8 in Advanced Intelligent Systems, researchers from Queen Mary University of London have made significant advancements in the field of bionics with the development of a new type of electric variable-stiffness artificial muscle that possesses self-sensing capabilities. This innovative technology has the potential to revolutionize soft robotics and medical applications.

Technology Inspired by Nature.

Jul 16, 2023

Researchers develop self-sensing electric artificial muscles

Posted by in categories: biotech/medical, cyborgs, robotics/AI, transhumanism

In a study published recently in Advanced Intelligent Systems, researchers from Queen Mary University of London have made significant advancements in the field of bionics with the development of a new type of electric variable-stiffness artificial muscle that possesses self-sensing capabilities. This innovative technology has the potential to revolutionize soft robotics and medical applications.

Muscle contraction hardening is not only essential for enhancing strength but also enables rapid reactions in living organisms. Taking inspiration from nature, the team of researchers at QMUL’s School of Engineering and Materials Science has successfully created an artificial muscle that seamlessly transitions between soft and hard states while also possessing the remarkable ability to sense forces and deformations.

Dr. Ketao Zhang, a Lecturer at Queen Mary and the lead researcher, explains the importance of variable stiffness technology in artificial muscle-like actuators. “Empowering robots, especially those made from flexible materials, with self-sensing capabilities is a pivotal step towards true bionic intelligence,” says Dr. Zhang.

Jul 14, 2023

The ethics of nanobiotechnology: A call for global regulation

Posted by in categories: biotech/medical, cyborgs, ethics, nanotechnology, neuroscience, transhumanism

Prosthetics moved by thoughts. Targeted treatments for aggressive brain cancer. Soldiers with enhanced vision or bionic ears.

These powerful technologies sound like science fiction, but they’re becoming possible thanks to nanoparticles.

And, as with any great power, there comes great responsibility.

Jul 13, 2023

Jean-Pierre Sauvage, Nobel Laureate in Chemistry: ‘Work is being done on machines that will travel through the blood to kill cancer’

Posted by in categories: biotech/medical, chemistry, cyborgs, genetics, nanotechnology

Last year, the chemist – who is an emeritus professor at the University of Strasbourg – published a book titled The Elegance of Molecules. In the pages, he lets his imagination run wild. “Over time, most of the chemical reactions that govern nature could be controlled or imitated by a nanorobot: counter-offensives by the immune system, the production of antibodies, hormones on demand, the repairing of damaged cells and organs [or] the correction of anomalies in the genetic text,” Sauvage writes. “None of this will belong in the realm of science fiction in the long-term.”

Sitting in the hotel’s restaurant, however, the researcher’s realism contrasts with his futuristic fantasy. “Today, we can’t do much. Molecular machines are a somewhat new concept: we can make molecules that move as we choose [and] we can make a fairly complex molecule perform a rotary motion. Or we can make it behave like a muscle, stretching and contracting. The applications will arrive in the future, but we’re not there yet,” he stresses.

The French researcher has been developing these molecular muscles since 2002 alongside a Spanish chemist – María Consuelo Jiménez – from the Polytechnic University of Valencia. “The first thing was to show that we can make a molecule that contracts and stretches. Now, you can think of making materials – especially fibers – that can contract and stretch. Perhaps artificial muscles could be made to replace damaged muscles in people, but that will be in the future. At the moment, there are no real applications,” Sauvage clarifies.

Jul 11, 2023

Is our world ready for mind-controllable robotic body parts?

Posted by in categories: biotech/medical, cyborgs, internet, robotics/AI

Advanced neuroprosthetics are here, and they could hook our brains into the Internet of Things.

Jul 9, 2023

Researchers successfully implanted the first artificial tubular muscle in vivo

Posted by in categories: biotech/medical, cyborgs

In January 2021, EPFL engineers announced in Advanced Science their concept of a novel cardiac assist device that is devoid of rigid metallic components. It consists of a soft, artificial muscle wrapped around the aorta that can constrict and dilate the vessel, ultimately enhancing the aorta’s natural function and aiding the heart to pump blood to the rest of the body.

Now June 2021, EPFL engineers led by Yves Perriard of the Laboratory of Integrated Actuators in collaboration with University of Bern, have successfully implanted their first artificial tubular muscle, in vivo, in a pig. During the 4-hour long operation, their cardiac assist device maintained 24 000 pulsations, of which 1,500 were activated artificially by the augmented aorta.

More information with downloadable pdf:

Continue reading “Researchers successfully implanted the first artificial tubular muscle in vivo” »

Page 16 of 130First1314151617181920Last