Everyday Examples Using Human Augmentation

Do you know the importance of human augmentation? Can you imagine the person from the cinematic world that overcame all odds and used his knowledge and experience with technologies to overcome his disabilities and emerge as an outstanding individual?

Yes, that individual is none other than Tony Stark, from the Iron Man of the Avengers superhero saga.  Aside from the fact that this particular character was a wonderful illustration of IoT’s cinematic profession, another place where Tony Stark surpassed was human augmentation.

With the support of comprehensive human augmentation technology, Tony Stark showed that there’s a cure for an opportunity that allows people to update themselves and put their disabilities to rest genuinely. So yes, yours truly Tony Stark’s switch to Iron Man is a relatively cool example of human enhancement.

Across the planet, entrepreneurs, engineers, and policymakers quickly explore new and marketable applications for human enhancement technologies.

Most of them are being designed to help folks fulfill their long-lived want to be brighter, faster, stronger, more challenging, and more appealing, and also to develop new skills which not long ago seemed like science fiction.

Here are examples of human enhancement across a wide variety of industries.

Replicating Human Ability

The first level of human augmentation is replication. This pertains to any augmentation that reproduces something an average individual can already do. You’ve probably seen examples of replication on your own life–take prosthetics, for instance. A prosthetic arm or leg does not provide the person with an ability that many humans would not already have. It only replicates a preexisting individual function and supplies it to someone who might not have had it earlier.

While it may look like the least interesting of those three categories–there are not many lasers, or rocket packs included’s in many ways the most important. Replication helps level the playing field for people who’ve endured a tragic illness or injury or who have been born with deficiencies that make meeting everyday needs harder.

These devices provide immense psychological benefits for their users. We’re beginning to see more innovative examples of prosthetics daily that get closer and closer to the real thing, creating important new opportunities for the people who want this technology.

Under this category, the individual augmentation technology, which restores or reproduces mundane human abilities, enters the picture. A fantastic example is hearing aids for the prosthetic or deaf limbs for specially-abled men and women.

With the support of the replications, you can provide equal opportunities to people who have experienced a life-threatening ailment or accident or those born with defects confronting barriers to fulfilling their everyday tasks. With the support of such devices mentioned below, it provides psychological assistance for the users.

Replication Examples:

Naked Prosthetics

Naked Prosthetics creates custom hand prosthetics for those who have had their palms. They’re among the first finger prosthetics manufacturers to supply their customers with exceptionally high levels of dexterity.


A wearable device like eyeglasses that provide legally blind people with the capacity to see their environments. The unit has cameras on the front that takes in the near-eye quality surroundings and display it on a screen that sits directly in front of the wearer’s eyes.


A stage that translates sign language into speech and language into sign language, acting as a private translator for deaf folks. When these products are projected towards companies with deaf workers, they could eventually expand to smartphones, presenting sign language communicable for anybody.

Cochlear Implants

Cochlear is among the first companies to develop such a product that restores hearing without needing an external hearing apparatus to be worn.


Creating organic cells (organs, bones, skin, etc.) using 3D printing methods. Although this technology is still in its earliest stages, it can fully redefine the health sector and how we typically consider healthcare.

Supplementing Human Ability

The next level of human augmentation is supplementation. This takes replication one step further by enabling us to do things that are already humanly possible but better–jump higher, run faster, suffer longer. We have already seen the effects that improving human capacities can happen through computing.

Steve Jobs famously said during a 1990 interview a computer is “just like a bicycle for the mind,” allowing individuals to think, create, and speak at a level not previously possible. The human enhancement that supplements our intellectual and physical constraints could reshape our culture. Augmenting our strength, endurance, speed, and five senses would redefine the human experience and expand our chances.

Supplementation Examples:


Wearable mechanical apparatus that can be worn on the exterior of the body. They generally provide the wearer with artificial endurance and strength. The Sarcos Guardian is an excellent example of an industrial exoskeleton that enables a human employee to lift to 200 lbs, perform exact operations with heavy machinery, and manage repetitive motions with no strain.


Another project by Elon Musk with the ultimate objective of producing a brain-computer interface (BCI). If successful, the project would enable people to interact with a computer on a neural level. However, this project is still in its infancy, and Musk has a history of earning impossible thoughts a reality.

Elon Musk lately announced a breakthrough in his job to sync the human mind with artificial intelligence. Throughout a live-streaming demonstration between farm animals and a point, Musk said his firm Neuralink had created a self-indulgent neural implant that can wirelessly transmit extensive brain activity without needing any external hardware help. The principal aim behind creating such a unit would be to sync the human mind with A.I., which will ensure people control computers, prosthetic limbs, and other devices using only their thoughts.


  • You can use it to give a visual prosthesis for people with retinal blindness or injury due to eye injury.
  • Plug in a camera right into the visual cortex and simulate a significant number of electrodes to recreate a visible picture
  • Telepathy is the next frontier for Neuralink.
  • Neuralink apparatus can shed light on various functions of the brain in the same manner oscilloscopes give visual information of printed circuit boards (PCBs)
  • Get nostalgia on demand and also cure cognitive ailments like dementia.
  • It helps you to forecast disease in the future.
  • Manage and treat mental disorders.
  • Cost – processor costs $10-20 million.

Waverly Labs

Image: waverlylabs.com

Waverly Labs has created a set of earbuds that can turn conversations in real-time, completely sidestepping the need to learn foreign languages. While the languages it can translate are restricted and not wholly reliable, it is a decisive step forward.

Google Glass

By now, everyone has heard of the technology, even if you’re not entirely sure what it does. While the machine has had a rocky start (primarily because of premature statements), vision augmentation is becoming ever more popular.

HoloLens 2

HoloLens 2 is a mixed reality headset from Microsoft that enables people to visualize and manipulate objects in holographic form. The device has many industrial and commercial applications, such as 3D computer-aided layout and layout collaboration, employee training and virtual education, and gambling.

human augmentation visor
Image: cnet.com

With the advancement of technology now, mixed reality Smart Glasses have turned into a new reality apparatus. It gives the most immersive and comfortable diverse reality experience which you may ever get. It uses industry-leading solutions to provide rapid turnaround time. All this is improved by the safety, reliability, and scalability of cloud and A.I. services from Microsoft.


  • Utilizes immersive technologies, which can help you view holograms simultaneously through the considerably increased field of view.
  • Helps in reading text and viewing complex details on 3D pictures in a hassle-free fashion with the support of the industry-leading resolution
  • You can wear it for quite a long time.
  • It has a dial-in fit system that is designed for prolonged use.
  • Maintain the glasses on — the headset slides right over them.
  • If you would like to move from virtual reality, flip the visor and get back to the real world.
  • It gives you the range to touch, grasp, and proceed with holograms that look natural — much like real objects.
  • Move freely without cables or outside packs to get in the way.
  • It comes with a headset. That’s a self-explanatory computer with Wi-Fi connectivity that means everything you need goes with you while you work.

Cost – $3,500

Exceeding Human Ability

The final degree of human enhancement allows humans to transcend normal abilities. Flying, for example, counts as surpassing human knowledge.

While this kind of enhancement is frequently the most exciting, it is still the most far off in the future–leaving fewer illustrations. Nearly all current applications involve exceptional use cases, such as the military or specific sectors. Such augmentations have been in the realm of potential and might become commonplace sooner than we think.

Exceeding Examples:

Zapata Flyboard Air

Flyboard Air is the newest individual augmentation offering that comes in the shape of a turboprop board capable of unprecedented freedom. It is an innovative stabilization system combined with propulsion, control, and stabilization system to achieve aviation security standard protocols. It’s the most compact redundant aircraft ever made.

Image: redbull.com
  • Features
  • Swift freedom in special operations
  • You can use it for Jettisoning from a helicopter or airplane.
  • You can use it for airshows and amusement activities.
  • Highly recommended for safety purposes because it consists of comfortable opening boots, an unconventional fuel system, status implication via telemetry from the screen integrated into the helmet, and 5 isolated turbines
  • You can get it on steep terrain.
  • Flights in powerful and turbulent winds
  • A celebrity can control it with the help of a joystick or with someone on the jet.
  • Price, the approximate cost per unit, could be $250,000.

A turbine-powered hoverboard. The operator stands on top of it like a surfboard or skateboard and can fly up to 500 feet in the air. While the unit is currently available for purchase, quotes appear to hover around a quarter of a million bucks. The organization is working to make the product more practical and inexpensive.

Invisibility Cloak

The notion of turning invisible surely grabs people’s minds, and while we do not have the technology ready yet, we’re getting closer. An assortment of researchers have come up with methods to create sure objects and surfaces undetectable, and they are trying to apply the same concepts to human cloaking.

Artificial Blood Mobile

While the theoretical study by Robert Freitas Jr. has explored the feasibility of creating artificial blood cells, this idea was developed from research into mammals–dolphins, whales, etc.–that can hold their breath underwater for extended amounts of time. The premise is that their blood cells are better at preserving oxygen, which we may have the ability to recreate.

Since the early 1980’s we’ve seen human blood replacements in the pipeline. However, because of a mixture of scientific and political reasons, there’s none available in either Europe or the U.S. There’s still continuing research to produce platelet substitutes in pre-clinical animal testing.

The only clinical item in the clinic is saline solutions to enlarge blood pressure to keep blood pressure and empower red cells to maintain working and regenerating. These synthetic blood cells can come in handy during medical emergencies in saving the lives of patients.


  • It helps prevent complications of red blood transfusion similar to immune reactions to blood and the danger of infections.
  • With the increase in the number of operations, the number of patients needing blood has increased; this is where artificial blood cells can come in handy.
  • In remote areas or crises, artificial blood cells can save lives because It’s sterile and no blood type matching is needed.
  • Artificial blood cells can deliver oxygen faster than actual blood during a crisis and might minimize harm to the tissue, primarily through a heart attack.
  • It may come in handy for patients suffering from blood disorders needing long-term blood transfusions, for example, patients with Myelodysplastic syndrome (a kind of cancer that inhibits immature red cells from the bone marrow from aging ) and Aplastic anemia (a condition where the bone marrow doesn’t produce sufficient fresh blood cells)
  • Artificial blood cells might be the sole option for specific cultural and religious groups of individuals having concerns over individual blood-derived goods.

Price – $1000


Though the word rings of mathematics fiction, these have a substantial potential to be a standard part of the medical sector. As per Wikipedia, a nanobot is”a robot which facilitates specific interactions with nanoscale objects or can control with nanoscale resolution.” These robots can be deployed into the human body to perform specific tasks that the human immune system can not own, like targeting and attacking particular diseases and cancers that the human immune system struggles with.

Artificial Memory Chip

It is no secret that hard drives are much better at keeping their memory than we are. They’re also able to access that memory with increased speed and accuracy. This idea prompted neuroscientist Theodore Berger to research synthetic memory chips set up in the human mind. While still conceptual, the job could allow people to have “perfect” memories which never forget information.

These examples show the variety of options available for human augmentation today, but we’re still in the early phases of this technology development. The challenge is to create augments that seamlessly integrate with the wearer and impact our lives for the better.

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