Brain-computer interface is the new revolutionary storm gripping the medical world. Top-notch scientists are conducting several experiments and human trials to design integrated networks between humans and machines.
This radical invention may transform the contemporary face of technology and allow us to achieve another posthuman milestone.
This article elucidates the significance of Elon Musk’s led brain-computer interface. It delineates the applications of this ground-breaking technology and the numerous challenges it anticipates encountering in the future.
Who is Elon Musk?
Elon Musk is an Africa born American entrepreneur, the designer of SpaceX, and the co-founder of PayPal. The business tycoon is known for his diverse contribution to electronics, communication, and neuro-cognitive technologies.
NEURALINK is one of his dynamic brainchild which has set an interactional rubric between humans and computing systems.
What is the NEURALINK Project all about?
NEURALINK project encompasses the peaking of cybernetic and technological innovation in the world of robotics. This techno-scientific medium gives new hope to the medical industry as it would replace future doctors with robotic surgeons and healthcare staff.
To be specific, NEURALINK is the skyrocketing initiative of Elon Musk which aims to develop a brain-machine interface.
The key objective of this inceptive idea is to synchronize the human cognitive function with an implantable electronic device. Especially useful or paralyzed or differently-abled individuals, this interface shall allow them to operate their phones, computers, and other gadgets without physical intervention.
How Does NEURALINK Work?
The working principle of NEURALINK is equally illuminating and enlightening as its idea of design. Here are a few features which shed more light on the operational dynamics of NEURALINK:
The device works via wireless transmission of signals from the brain to the computer. The credit of wireless transmission goes to its low energy consumption module.
Enabled with flexible threads, these nodes attach to the cortex and have the ability to transfer a massive volume of data between the two connected interfaces.
These transmission threads are micron-scaled with a width of 4-6 um and, according to Elon Musk’s official memorandum, can comprise 3.072 electrodes per array which are distributed across 96 threads.
Next, the connection electrodes are processed to deliver small amounts of electric current to the brain. In between, the connected neurons (via the process of synapsis) continue to facilitate a transforming magnetic field so as to allow a smooth flow of the electric charge between the brain and the computer.
This eventually creates phenomenal sensations which are also visible on a computer screen.
Applications of NEURALINK
NEURALINK leads to tech-driven networking between humans and artificial intelligence. Some of its pertinent applications are mentioned hereby:
Tackle pathological neurological disorders
Dealing with problems pertaining to the loss of memory.
Grapple with the situations of depression, hearing impairment, paralysis, addiction, and anxiety.
Engender a visual prosthesis.
Conduct telepathy insights.
Give a flourishing pathway to your pent up creative emotions.
Elimination of distress and pain.
Diagnose issues pertaining to your psychological well-being.
Forecasting diseases (such as Parkinson’s diseases).
Challenges to NEURALINK
Despite multiple applications, the NEURALINK project encounters inevitable restraints such as:
Reading of the appropriate neural activity. This is because of the highly perplexing brain functions and the device may require some time to connect itself with the brain signals.
Does not have a high resolution to discern the activity of the tiny brain cells.
Electrodes may damage the scar tissue if worn for longer durations.
A decoding issue is likely to occur within the cognitive system.
Unfiltered and noisy data.
Variability in the received information.
How is NEURALINK Better than other BMI Devices?
Despite potential restraints, NEURALINK is still at par with other BMI devices because of the following reasons:
It can comfortably deal with Parkinson’s diseases as compared to other BMI equipment.
NEURALINK is enabled with deep brain stimulation (DBS) for its operational dynamics.
It is featured with a flexible magnitude of electrodes which is absent in other BMI devices.
It has 1024 channels of information that link it to the human cognitive function and performs a dedicated spike detection of each neural channel.
Its integration does not harm the neural blood vessels.
Finally, a wireless network of telecommunication.
Altogether, NEURALINK could be the new scientific and technological revolution of the 21st century. Its purpose is to connect us with technology and benefit the medical world with its mind-blowing discovery.
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