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Category: cyborgs

A column on #transhumanism I did for Flaunt:

Are you ready for the future? A Transhumanist future in which everyone around you—friends, family, and neighbors—has dipped into the cybernetic punch bowl? This is a future of contact lenses that see in the dark, endoskeleton artificial limbs that lift a half-ton, and brain chip implants that read your thoughts and instantly communicate them to others. Sound crazy? Indeed, it does. Nevertheless, it’s coming soon. Very soon. In fact, much of the technology already exists. It’s being sold commercially at your local superstore or being tested in laboratories right now around the world.

We’ve all heard about driverless test cars on the roads and how doctors in France are replacing people’s hearts with permanent robotic ones, but did you know there’s already a multi-billion dollar market for brainwave-reading headsets? Using electroencephalography (EEG) sensors that pick up and monitor brain activity, NeuroSky’s MindWave can attach to Google Glass and allow you to take a picture and post it to Facebook and Twitter just by thinking about it. Other headsets allow you to play video games on your iPhone with only your thoughts as well. In fact, a few months ago, the first mind-to-mind communication took place. A researcher in India projected a thought to a colleague in France, and using their headsets, they understood each other. Telepathy went from science fiction to reality, just like that.

The history of cybernetics—sometimes used to describe robotic implants, prosthetics, and cyborg-like enhancements in the human being and its experience—has come a long way since scientists began throwing around the term in the 1950s. What a difference a generation or two makes. Today a thriving pro-cyborg medical industry is setting the stage for trillion-dollar markets that will remake the human experience. Five million people in America suffer from Alzheimer’s, but a new surgery that involves installing brain implants is showing promise in restoring people’s memory and improving lives. The use of medical and microchip implants, whether in the brain or not, are expected to surge in the coming years. NBC News recently reported that many Americans will likely have chip implants within a decade’s time. It’s truly a new age for humans.

Standing proud at the forefront of all this change is the fascinating biohacker culture, where extreme inventors and innovators are leading the way by sticking RFID tracking chips in their bodies, permanent wireless headphones near their eardrums, and magnets in their fingers.

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There is a longstanding debate among artificial intelligence experts and futurists: When, not if, AI emerges on the scene, will it help humanity or destroy it?

The scenario has played out through innumerable iterations in popular culture, the most popular being The Terminator series.

Steven Spielberg, riffing on the film Stanley Kubrick was going to direct before his death, presented the counterpoint, espousing a benevolent vision of AI in A.I. Then there are more nuanced, ambiguous iterations, like the recent Ex Machina.

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Another breakthrough on our path to Singularity.

Researchers at Duke University have demonstrated for the first time an electronic link between the brains of pairs of rats. The link allowed the rats to communicate directly and solve simple tasks. A follow up research demonstrated a similar link created between animals thousands of miles apart—one in North Carolina and one in Brazil. The research might allow scientists in the future to connect multiple brains to form a combined multi-brain which could allow sharing of both motor and sensory information between several animals. How easily can you connect one brain directly to another? The surprising answer is that it might be significantly easier than previously thought, at least when it comes to rats. Professor Miguel Nicolelis from Duke University School of Medicine and his team, discovered in previous studies that rat brain are much more “plastic” than we expected, and that they can adapt quickly to accept input from devices outside the body and even learn how to process invisible infrared light generated by an artificial sensor (somewhat similar experiments are currently being done in humans, where blind people are fitted with bionic eyes connected to the optical nerve which is given time to adjust to the new stimuli with the hope of eventually allowing them to process the information and regain partial sight).

Following his initial research Professor Nicolelis asked himself an important question: “if the brain could assimilate information from artificial sensors, could it also assimilate information from a different body?”. This was the trigger which pushed Nicolelis and his team to conduct the current series of experiments.

In the first stage of the experiment the researchers trained pairs of rats to solve a straightforward problem – press the right lever when an light above it is switched on. When done correctly, the rat received a reward in the form of a sip of water.

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In the George Lucas classic Star Wars, hero Luke Skywalker’s arm is severed and amputated during a lightsaber fight and consequently fitted with a bionic arm that he can use as if it were his own limb. At the time the script was written, such a remedy was pure science fiction; however, the ability to manufacture bionic arms that have the functionality and even feel of a natural limb is becoming very real, with goals of launching a prototype as soon as 2009. Already, primates have been trained to feed themselves using a robotic arm merely by thinking about it, while brain sensors have been picking up their brain-signal patterns since 2003. The time has come for implementing this technology on paralyzed human patients and amputees. This article will provide a brief explanation of the technology, its current status, and the potential future it holds.

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In Brief

  • Scientists are developing new ways to bridge the gap between our bodies and electronics by mimicking the connections between neurons.
  • Countless individuals stand to gain increased functionality and quality of life by these new developments in bio-hybrid devices like prosthetics and brain implants.

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In an epidsode of the dystopian near-future series, Black Mirror, a small, implantable device behind the ear grants the ability to remember, access, and replay every moment of your life in perfect detail, like a movie right before your eyes.

Theodore Berger, a biomedical engineer at the University of Southern California, can’t promise that level of perfect recall—perhaps for the better—but he is working on a memory prosthesis. The device, surgically implanted directly into the brain, mimics the function of a structure called the hippocampus by electrically stimulating the brain in a particular way to form memories—at least in rats and monkeys. And now, he’s testing one that could work in humans.

Berger’s device hinges on a theory about how the hippocampus transforms short-term memories, like where you deposited your keys, into long-term memories—so you can find them later. In his early experiments, he played a tone and then puffed air in a rabbit’s face, causing it to blink. Eventually, just playing the tone would make the rabbit blink, just like Pavlov’s famous salivating dogs. Berger recorded the hippocampus’ activity with electrodes, and as the rabbits learned to associate the tone with the air puff, patterns in those signals changed in a predictable way.

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A punky warrior races across a barren wasteland, pursued by a hulking cyborg. There’s not much more to go on in the visually stunning Lost Boy, but since it’s a proof-of-concept film, mood and style are the main attraction. It’s by PostPanic Pictures, whose visually-rich short Sundays received feature interest last year.

[Vimeo Staff Picks]

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You know that whole chaos theory idea (okay, we saw it in an Ashton Kutcher movie) about how a butterfly flapping its wings in one part of the world can trigger a hurricane in another?

Well, the 2016 equivalent is a project where scientists in Russia wear an exoskeleton to control a connected robot in Germany.

Named CAPIO, the project is the work of DFKI, a kind of European DARPA focused on building robots for carrying out applications and tasks that can assist humans. One of its robots is called AILA, and is controllable using CAPIO, an eight-contact exoskeleton system that wearers can use to move AILA in real time.

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