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Archive for the ‘cyborgs’ category: Page 22

Mar 17, 2023

Human Cyborg | Documentary | Transhumanism | Neuroscience

Posted by in categories: biotech/medical, computing, cyborgs, education, engineering, neuroscience, transhumanism

Human Cyborg — We’ve all seen Cyborgs in Hollywood blockbusters. But it turns out these fictional beings aren’t so far-fetched.

Human Cyborg (2020)
Director: Jacquelyn Marker.
Writers: Kyle McCabe, Christopher Webb Young.
Stars: Justin Abernethy, Robert Armiger, John Donoghue.
Genre: Documentary.
Country: United States.
Language: English.
Also Known As: Cyborg Revolution.
Release Date: 2020 (United States)

Continue reading “Human Cyborg | Documentary | Transhumanism | Neuroscience” »

Mar 16, 2023

Humans in 2100 could be ageless bionic hybrids & Elon Musk-style ‘cyborgs’

Posted by in categories: biotech/medical, cyborgs, Elon Musk, mobile phones, robotics/AI, transhumanism

HUMANS in the next 100 years could be part-machine, part-flesh creatures with brain chips and bionic limbs and organs in a vision of “cyborgs” once described by Elon Musk.

Men and women born around 2100 could live in a world very different to ours as humans may be totally connected to the internet and meshed together with artificial intelligence.

Mobile phones would no longer be needed — as everything you now do with your smartphone will now be done with a chip in your brain.

Mar 15, 2023

Apple A17 Bionic chip throws the entire Android camp in disarray

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

Chinese Phone blog dedicated to providing breaking news, expert reviews, Chinese Phones, Android Apps, Chinese Android Tablets and how tos.

Mar 11, 2023

Ultrathin, wireless palm patch brings touch to virtual reality

Posted by in categories: augmented reality, biotech/medical, cyborgs, robotics/AI, virtual reality

The sense of touch may soon be added to the virtual gaming experience, thanks to an ultrathin wireless patch that sticks to the palm of the hand. The patch simulates tactile sensations by delivering electronic stimuli to different parts of the hand in a way that is individualized to each person’s skin.

Developed by researchers at City University of Hong Kong (CityU) with collaborators and described in the journal Nature Machine Intelligence (“Encoding of tactile information in hand via skin-integrated wireless haptic interface”), the patch has implications beyond virtual gaming, as it could also be used for robotics surgery and in prosthetic sensing and control.

‘Haptic’ gloves, that simulate the sense of touch, already exist but are bulky and wired, hindering the immersive experience in virtual and augmented reality settings. To improve the experience, researchers led by CityU biomedical engineer Yu Xinge developed an advanced, wireless, haptic interface system called ‘WeTac’.

Mar 8, 2023

Multimodal locomotion and cargo transportation of magnetically actuated quadruped soft microrobots

Posted by in categories: biotech/medical, cyborgs, transhumanism, transportation

Recently, a research team from Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, proposed a bionic quadruped soft thin-film microrobot actuated by magnetic fields with a mass of only 41 mg, which promises to be applied to stomach examination and treatment. Researchers realized the multimodal locomotion control of the soft microrobot in magnetic fields and the grasping and transportation of micro-objects by the soft microrobot.

The new paper, published in Cyborg and Bionic Systems, details the process of making the and the magnetization process, presents the mechanism of microrobot’s locomotion and cargo transportation, and demonstrates the microrobot transporting multiple microbeads from different locations to the target position.

Untethered microrobots have received much attention for their potential in and small-scale micromanipulation. “Due to the fact that magnetic fields are harmless to biological cells and tissues, magnetic fields are widely used to actuate microrobots for biomedical applications,” explained study author Tiantian Xu, a professor at the Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences.

Mar 8, 2023

The future is now: Elon Musk says Neuralink is ready for human testing

Posted by in categories: cyborgs, Elon Musk, neuroscience, robotics/AI, transhumanism

Elon Musk’s company Neuralink has developed a technology that can link human brains to computers, and according to Musk, it is now ready for human testing. This groundbreaking technology has the potential to revolutionize the way we communicate and interact with machines, and could pave the way for new treatments for neurological disorders. With the announcement that Neuralink is ready for human testing, the future of human-computer integration is closer than ever before.

#neuralink #elonmusk #braincomputerinterface #humanenhancement #neurotechnology #futurismo #transhumanisme #neuroscience #innovation #technews #mindcontrol #cyborgs #neurologicaldisorders #futuretechnology #humanpotential #ai #neuralengineering #brainimplants #humanmachineinterface #brainresearch #brainwavesound

Mar 8, 2023

When will a computer surpass the human brain?

Posted by in categories: cyborgs, education, genetics, nanotechnology, robotics/AI, transhumanism

This is a clip from Technocalyps, a documentary in three parts about the exponential growth of technology and trans-humanism, made by Hans Moravec. The documentary came out in 1998, and then a new version was made in 2006. This is how the film-makers themselves describe what the movie is about:

“The accelerating advances in genetics, brain research, artificial intelligence, bionics and nanotechnology seem to converge to one goal: to overcome human limits and create higher forms of intelligent life and to create transhuman life.”

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Mar 8, 2023

Cyborg technology analyzes the functional maturation of stem-cell derived heart tissue

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

Research in animal models has demonstrated that stem-cell derived heart tissues have promising potential for therapeutic applications to treat cardiac disease. But before such therapies are viable and safe for use in humans, scientists must first precisely understand on the cellular and molecular levels which factors are necessary for implanted stem-cell derived heart cells to properly grow and integrate in three dimensions within surrounding tissue.

New findings from the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) make it possible for the first time to monitor the functional development and maturation of cardiomyocytes—the responsible for regulating the heartbeat through synchronized —on the single-cell level using -embedded . The devices—which are flexible, stretchable, and can seamlessly integrate with living cells to create “cyborgs”—are reported in a Science Advances paper.

“These mesh-like nanoelectronics, designed to stretch and move with growing tissue, can continuously capture long-term activity within individual stem-cell derived cardiomyocytes of interest,” says Jia Liu, co-senior author on the paper, who is an assistant professor of bioengineering at SEAS, where he leads a lab dedicated to bioelectronics.

Mar 3, 2023

New e-skin could allow robots to sense touch and their surroundings

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

It’s a revolutionary step forward for soft robotics.

A team of scientists from Edinburgh has engineered smart electronic skin that could pave the way for soft, flexible robotic devices with a sense of touch, according to a press release by the institution published last week.

The technology could aid in breakthroughs in soft robotics introducing a range of applications, such as surgical tools, prosthetics, and devices to explore hazardous environments.

Continue reading “New e-skin could allow robots to sense touch and their surroundings” »

Feb 25, 2023

This bionic finger uses touch to “see” inside human tissue, electronics

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

The human fingertip is an exquisitely sensitive instrument for perceiving objects in our environment via the sense of touch. A team of Chinese scientists has mimicked the underlying perceptual mechanism to create a bionic finger with an integrated tactile feedback system capable of poking at complex objects to map out details below the surface layer, according to a recent paper published in the journal Cell Reports Physical Science.

“We were inspired by human fingers, which have the most sensitive tactile perception that we know of,” said co-author Jianyi Luo of Wuyi University. “For example, when we touch our own bodies with our fingers, we can sense not only the texture of our skin, but also the outline of the bone beneath it. This tactile technology opens up a non-optical way for the nondestructive testing of the human body and flexible electronics.”

According to the authors, previously developed artificial tactile sensors could only recognize and discriminate between external shapes, surface textures, and hardness. But they aren’t capable of sensing subsurface information about those materials. This usually requires optical technologies, such as CT scanning, PET scans, ultrasonic tomography (which scans the exterior of a material to reconstruct an image of its internal structure), or MRIs, for example. But all of these methods also have drawbacks. Similarly, optical profilometry is often used to measure the surface’s profile and finish, but it only works on transparent materials.

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