Menu

Blog

Archive for the ‘cyborgs’ category: Page 17

Aug 15, 2023

🔮 The Fermi Paradox, Cyborgs, And Artificial Intelligence — My Interview With Isaac Arthur

Posted by in categories: cyborgs, existential risks, robotics/AI

In this week’s live stream, I’m going to share clips of my interview with Isaac Arthur, which you can find the full version on the Answers With Joe Podcast: h


Aug 14, 2023

Heart Organoids Tricked Out With Nanowires Restored Heart Function in Rats

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

The tiny, floating blobs of mini-hearts were straight out of Frankenstein. Made from a mixture of human stem cells and a sprinkle of silicon nanowires, the cyborg heart organoids bizarrely pumped away as they grew inside Petri dishes.

When transplanted into rats with heart injuries they lost their spherical shape, spreading out into damaged regions and connecting with the hosts’ own heart cells. Within a month, the rats regained much of their heart function.

It’s not science fiction. A new study this month linked digital electrical components with biological cells into a cyborg organoid that, when transplanted into animal models of heart failure, melded with and repaired living, beating hearts.

Aug 13, 2023

Editorial: Augmentation of Brain Function: Facts, Fiction and Controversy

Posted by in categories: biotech/medical, computing, cyborgs, virtual reality

This research topic consists of 148 articles on various aspects of brain augmentation contributed by more than 600 authors. At the time of writing, the articles have been viewed online more than 1.3 million times and received plentiful citations in the scientific literature. The topic won the 2017 Frontiers Spotlight Award.

The topic theme, “Augmentation of brain function,” is an umbrella term for the approaches from different disciplines, aimed at the improvement of brain performance in both healthy people and patients suffering from neurological disabilities. Functions of the brain that scientists hope to augment belong to sensory, motor and cognitive domains. Brain enhancements could be achieved pharmacologically or using neurostimulation. Functional improvements can be also achieved with brain training techniques that employ modern technologies like computer games and virtual reality. Furthermore, brain performance can be augmented using brain-machine interfaces (BMIs), the pathways that connect neuronal circuits to external assistive devices, such as limb prostheses, exoskeletons, and communication aids. In addition to sending commands to external devices, BMIs can enable bidirectional communications, where artificial sensory signals are delivered to the brain while information is being decoded from neural recordings.

Even though many of the brain-augmenting ideas sound like science fiction, the topic authors feel optimistic about most of them. The overall consensus is that brain performance can be improved with artificial components, and this approach will lead to practical applications in the not-too-distant future. Many of the techniques covered in the topic, for example BMIs and noninvasive stimulation, have already experienced an explosive development. While expectations are high for the augmentation approaches, philosophers are warning about the ethical issues related to technologies that interfere with the mind, possibly in unpredictable ways. Although some of these concerns seem far-fetched, it is important that ethical standards are kept high as these revolutionary brain-augmenting methods are being developed.

Aug 8, 2023

Report: Apple buys every 3 nm chip that TSMC can make for next-gen iPhones and Macs

Posted by in categories: computing, cyborgs, food, mobile phones, transhumanism

It’s been rumored for several months now that Apple will be using a new 3 nm manufacturing process from Taiwan Semiconductor (TSMC) for its next-generation chips, including M3 series processors for Macs and the A17 Bionic for some next-gen iPhones. But new reporting from The Information illuminates some of the favorable terms that Apple has secured to keep its costs down: Apple places huge chip orders worth billions of dollars, and in return, TSMC eats the cost of defective processor dies.

At a very high level, chip companies use large silicon wafers to create multiple chips at once, and the wafer is then sliced into many individual processor dies. It’s normal, especially early in the life of an all-new manufacturing process, for many of those dies to end up with defects—either they don’t work at all, or they don’t perform to the specifications of the company that ordered them.

Aug 2, 2023

Dystopian Rainfall — Experience the Dystopian Rainfall of a Blade Runner Universe — ASMR Track

Posted by in categories: cosmology, cyborgs, media & arts, space travel

Experience the dystopian rainfall of a Blade Runner universe in this ASMR track! Sit back, relax and let the futuristic cyberpunk music transport you to a dark and dangerous future.

This sci-fi ambient music is perfect for any fan of Blade Runner 2049. With a cinematic soundscape and spine chilling music, this track will transport you to a dark and dystopian future. Enjoy the sounds of rain falling on a roof, the sound of a blade cutting through metal and the sound of a cyborg walking the streets of a city at night.

Continue reading “Dystopian Rainfall — Experience the Dystopian Rainfall of a Blade Runner Universe — ASMR Track” »

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.

Page 17 of 132First1415161718192021Last