Neuralink full send... Elon's brain chips actually work on humans
Summary
TLDRElon Musk's Neuralink has successfully implanted a brain-computer interface into a human subject, 29-year-old Nolan Arbau, who was paralyzed from the shoulders down. The technology allows Arbau to control a computer cursor with his thoughts, thanks to a chip with 1,024 electrodes that picks up brain waves. This breakthrough could revolutionize assistive technology for the disabled and potentially lead to integration with advanced robotics, offering a future where disabilities may be less restrictive. Despite skepticism, Neuralink's data is one-way, ensuring privacy and safety, and clinical trials for the technology are open for public participation.
Takeaways
- ð Neuralink successfully implanted their first brain chip in a human, debunking fears and rumors of failure.
- ðš Nolan Arbou, a 29-year-old paralyzed from the shoulder down, gained telekinetic-like abilities, controlling devices with his thoughts.
- ð® Using the Neuralink chip, Nolan can play chess and Civilization VI by just thinking, without any physical interaction.
- ð§ The installation of the Neuralink chip is performed by a surgical robot, which implants threads finer than human hair into the brain.
- ð¿ The N1 chip has 1,024 electrodes across 64 threads, offering high-density brain wave detection capabilities.
- ð¯ Neuralink's technology allows for wireless data transmission and is powered by a rechargeable lithium-ion battery.
- ð€ The technology operates by detecting and interpreting brain wave patterns to translate specific thoughts into actions.
- ð Brain-computer interface requires the user to practice movements to accurately match thoughts with actions.
- ð€Šââïž Skepticism exists around brain chips, but current implementations are unidirectional, preventing unwanted data reception or complex thought identification.
- ð Clinical trials for Neuralink's brain chip technology are open, inviting early adopters to participate.
Q & A
What significant announcement did Elon Musk make a few months ago regarding Neuralink?
-Elon Musk announced that Neuralink had successfully implanted their first brain-computer interface, known as a 'neuralink chip,' into a real-life human.
What was the initial concern about the safety of the Neuralink device after its implantation in a human?
-There was concern that the device might have malfunctioned or exploded, potentially causing harm or even death to the first human test subject, referred to as 'patient zero.'
What was the outcome of the Neuralink installation in the first human user?
-The Neuralink installation was a success, and the first user, a 29-year-old man named Nolan, gained telekinetic-like abilities, such as controlling a mouse cursor to play games using only his thoughts.
How was the Neuralink chip implanted into Nolan's brain?
-A surgical robot drilled a hole into Nolan's cranium and implanted tiny threads, finer than human hair, into his brain. These threads contained high-density electrodes capable of detecting electrical activity or brain waves.
How does the Neuralink device transmit data and receive power?
-The Neuralink device transmits data wirelessly and is powered by a small lithium-ion battery that is charged wirelessly from the outside using an inductive charger.
What is the significance of the different types of brain waves mentioned in the script, and how do they relate to the device's function?
-Different brain waves correspond to different levels of alertness and focus. The Neuralink device is particularly interested in gamma waves, which are associated with high focus, as these can be used to identify specific thought patterns and translate them into actions, such as moving a mouse cursor.
What is the process for a user to start using the Neuralink device effectively?
-After surgery, the user must practice a variety of movements through a brain-computer interface to help the system learn which thoughts correspond to which actions, as everyone's brain waves are unique.
How could Neuralink technology potentially change the lives of people with disabilities in the future?
-The technology could be integrated with advanced robotic devices like exoskeletons or mech suits, allowing people with disabilities to control these devices with their brains, significantly improving their mobility and independence.
What are some concerns and misconceptions about brain chips that the script addresses?
-The script clarifies that data flow is one-way, meaning there's no risk of advertisements in dreams or loss of bodily function control due to subscription issues. It also assures that complex thoughts cannot be identified, and there's no risk of legal trouble for 'wrong think'. Lastly, there's no API for developers to build apps on the device.
How can someone become an early adopter of Neuralink technology?
-Clinical trials for the Neuralink 'Founder's Edition' brain chip are open, and interested individuals can sign up through a link provided in the video description.
What is the role of the host, Nolan Arbau, in the video?
-Nolan Arbau, a 29-year-old man paralyzed from the shoulder down, is the first human to use the Neuralink device. He demonstrates his newfound abilities, such as controlling a computer mouse with his thoughts, and serves as an example of the technology's potential impact.
Outlines
ð Neuralink's Breakthrough and Nolan's Telekinetic Abilities
This paragraph introduces the recent success of Neuralink's brain-chip implantation in a human subject, specifically Nolan, who has gained telekinetic-like abilities after being paralyzed from a diving accident. It highlights the initial skepticism and fear due to prior testing with monkeys and the surprising positive results. The video's host, Nolan, explains that the technology allows him to control a mouse cursor with his thoughts, playing complex games without any physical interaction. The focus is on the revolutionary potential of this technology and the respect owed to Nolan for being the first human test subject.
Mindmap
Keywords
ð¡Neuralink
ð¡Brain-Chip
ð¡Telekinesis
ð¡Paralysis
ð¡Electrodes
ð¡Brain Waves
ð¡Surgical Robot
ð¡Wireless Data Transmission
ð¡Brain-Computer Interface (BCI)
ð¡Clinical Trials
ð¡Robotics
ð¡Privacy and Security
Highlights
Elon Musk's Neuralink has successfully implanted its first brain-computer interface (BCI) device in a human.
Initial skepticism and fears about the implant's success were proven wrong, as the patient survived and demonstrated remarkable abilities.
The first human user of Neuralink, a 29-year-old man named Nolan, was paralyzed from the shoulder down due to a diving accident.
Nolan has gained telekinetic-like abilities, such as controlling a mouse cursor to play games using only his thoughts.
The Neuralink device operates without eye tracking or external sensors, relying solely on the chip implanted in the brain.
The N1 chip contains 1,024 electrodes distributed across 64 threads, with 16 electrodes per thread, far surpassing typical electroencephalogram (EEG) sensors.
The surgical process involves a robotic system that drills a hole into the skull and weaves threads into the brain, containing high-density electrodes to detect brain waves.
Neuralink transmits data wirelessly and is powered by a small, rechargeable lithium-ion battery.
Understanding brain waves is crucial for interpreting the signals, with different frequencies corresponding to various levels of alertness and focus.
The technology allows for the recognition of specific thought patterns, which can then be translated into actions, such as moving a computer mouse.
Post-surgery, patients must practice with a brain-computer interface to learn which thoughts correspond to which movements.
The potential integration of Neuralink with advanced robotics could revolutionize the way people with disabilities interact with the world.
The development in robotics, such as humanoid robots with dexterity, indicates a future where brain chips and robotics could converge significantly.
Neuralink's technology has the potential to make disabilities less restrictive, offering a major advancement for humanity.
Despite skepticism, Neuralink's data only flows one way, ensuring privacy and preventing unwanted interference with brain functions.
Clinical trials for Neuralink's technology are open, allowing individuals to become early adopters of the brain-computer interface.
The Code Report provides an in-depth look at the groundbreaking technology and its implications for the future.
Transcripts
a few months ago Elon Musk announced
neuralink had implanted their first
brain ship into a real life human but in
the weeks that followed we heard nothing
but
crickets based on the prior testing
results with monkeys doctors scientists
and Elon haters all over the world
feared the worst they assume the enlon
likely exploded and patient zero did not
survive finally yesterday we learned the
truth the neurolink install was a
success and the results are absolutely
mind-blowing first ever user of the Nur
link device and I think you're my only
telekinetic friend that I have yeah I
hope so it is March 21st 2024 and you're
watching the code report this is Nolan
arbau he's a 29-year-old who was
paralyzed from the shoulder down in a
diving accident that's not the best card
to be dealt in life but over the last
few weeks he's gained telekinetic like
abilities that seem impossible at first
glance like here he's controlling a
mouse cursor to play games like chess
and Civ 6 using nothing but his thoughts
there's no eye tracking or sensors other
than the chip in his brain in today's
video we'll find out exactly how this
crazy technology works and make some
predictions about where things are going
in the future but first I think Humanity
owes this guy a huge amount of respect
and appreciation the average person
thinks they're brave for being an early
adopter of the cybertruck but it takes
real balls of stainless steel to order
the foundation series neuralink what's
crazy is that the chip itself is not
installed by a human surgeon but rather
a surgical robot after drilling a hole
into your cranium it implants a bunch of
tiny threads that are finer than a human
hair it uses a tiny needle like a sewing
machine to weave these threads into your
brain each thread contains contains high
density electrodes which are capable of
detecting electrical activity also known
as brain waves the N1 ship has 1,24
electrodes distributed across 64 threads
which means you have 16 electrodes per
thread to put that in perspective a
typical Electro andram will have around
20 sensors and they typically max out
around 256 electrodes in addition
they're on the outside of your skull
which means you're more likely to get
interference before that signal reaches
the electrode the only real Advantage is
that you don't have to drill a hole into
your skull the N1 trans mits data
wirelessly and is powered by a small
lithium ion battery and that battery is
charged wirelessly from the outside via
an inductive charger but the big
question here is how is this guy
actually moving a mouse with his
thoughts well in order to understand
that we need to learn a little bit about
brain waves when you're asleep your
brain emits low frequency delta waves
around 2 Herz when you wake up and
become a little more alert they increase
their frequency to Alpha Waves at around
10 Herz and then finally when you become
highly focused like when solving a
coding problem or playing chess they
become gamma waves at around 35 Herz and
that's what we're most interested in
measuring because we can recognize
certain wave patterns just like a
soundwave which can identify a distinct
thought in your brain they didn't
provide a ton of detail in the neuralink
video but he might have a thought like
move my right arm that creates a
specific type of electrical signal in
his brain the chip itself can then pick
up on that which triggers an action to
move the mouse to the right but that
doesn't happen magically right after the
surgery there's a brain computer
interface where the end user needs to
practice a bunch of movements because
everybody's brain waves are different
and it needs to learn which thoughts
correspond to which movements now if you
have working arms and legs you might not
be all that excited but for many this
technology could be life-changing
especially when integrated with
futuristic Technologies like today we
have wheelchairs but in the Noto distant
future they could be replaced by Mech
suits that are entirely controlled by
the person's brain I know that sounds
crazy but the field of Robotics is also
popping off right now figure one has
incredible humanlike dexterity and
Nvidia just announced their own humanoid
world and it's only a matter of time
before there's an apple robot Pro when
brain chips and Robotics converge in the
near future human disabilities may be
far less restrictive and that's a big
win for Humanity now brain chips do have
their Skeptics for obvious reasons but
luckily the data only flows one way you
don't have to worry about getting KFC
advertisements injected into your dreams
and they won't be able to turn off
important bodily functions if you don't
pay your monthly subscription also they
can't really identify highly complex
thoughts which means there's no need to
worry about being thrown in jail for
wrong think while the NSA monitors your
thoughts and most importantly there
won't be an API for JavaScript
developers to build apps on it now
finally the good news is that you can be
an early adopter as well clinical trials
are open for the neuralink prime study
where you can get your Founders Edition
brain chip make sure to sign up with the
link on screen full disclosure this
video is not sponsored and I don't get
paid if you don't survive the trial so
come with me if you want to not die this
has been the code report thanks for
watching and I will see you in the next
one
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