Are augmented humans still humans Machine humans : Coresumo

Here we discuss Are augmented humans still humans Machine humans. Engineers, businessmen, and planners around the world are quickly investigating new and viable uses for human augmentation technologies.

The bulk of them are target at assisting people in realizing their long-held goal to be smarter, faster, stronger, braver, and more attractive, as well as to acquire previously thought-of as science fiction abilities.

Human augmentation (also termed as “Human 2.0”) is the development of cognitive and physical advancements as an important component of the human body.

Human augmentation is a scientific field that aims to enhance human capabilities via medicine or technology. Traditionally, this has been do by taking chemical substances that enhance a certain talent or by placing implants that need medical procedures. Each of these augmentation methods have the potential to be intrusive.

Are augmented humans still humans Machine humans

External equipment, such as eyeglasses, binoculars, microscopes, or ultrasensitive microphones, has also been employ to supplement abilities. Nowadays, augmented reality and multimodal interaction technologies have enabled non-invasive ways of enhancing humans.

Human enhancement is becoming more important and beneficial in a variety of fields.

Are augmented humans still humans? Machine humans

Enhance attractiveness

Humankind has attempted to improve physical beauty for as long as we can remember, by colouring (and occasionally scarring) the skin, extending the neck, boosting muscular strength, restricting the feet to stay tiny,and the like. After all , beauty varies by culture, and what is appealing in one society may be repulsive in another.

Cosmetics have existed for hundreds of years, and technological advancements have significantly helped the business.

Nanotechnology is increasingly offering additional choices in cosmetics, and electronics is also making an appearance in cosmetics. Flexible electronics, as well as skin-printable electronics, will enable the development of a new range of skin jewels, or dazzling skin in the true sense.

Plastic surgery is becoming more common and will improve as new materials become available. Body parts will be able to be reshape thanks to smart materials.

Genomic and bioengineering are already assisting in the selection of particular characteristics in In Vitro Fertilisation, allowing a couple to pick the colour of their baby’s eyes.

Sensing enhancement

A great deal of research is being do to address the requirements of individuals who have lost all or most of their sensory skills, including hearing, seeing, touching, smelling, and taste.

The obtained results have exhibited that once we employ some artificial sense to replace or supplement an original sense, we can extend the natural sense capabilities, effectively augmenting a person’s sensorial capacity, to the point where an artificial sense may (in the future) be of interest even to people who do not have any sense disability.

Increasing our senses would give a new perspective/perception of the world and would almost certainly result in a different set of interactions.

Replacing human abilities

The replication category includes human enhancement technology that restores or replicates routine human skills.

Replication aids in the provision of equitable chances for individuals who have suffered a calamitous accident or illness, as well as those who were born with deficiencies and have challenges in meeting their daily requirements. The gadgets used here provide significant psychological support to their users.

Human enhancement is being use in a variety of fields, including bionics and prosthetics. The discipline seeks to recreate or improve pre-existing human functions via the development of medical devices that assist individuals in regaining functions that they have either lost or never had.

A myoelectric prosthesis, such as an arm or leg, is a typical example. A person who has lost an arm or leg may recover movement with the assistance of myoelectric limbs, which use electrical impulses produced by their muscles. These prostheses significantly improve the physical skills of people who are differently able while being less intrusive. Are augmente humans still humans Machine humans. They do not, however, give sensory input to the individual utilising the limb.

Other examples include bionic eyes, bionic lenses, and mechanical eye implants, all of which seek to improve human vision. Bionic eye implants, resembling prosthetic eyes, function inside pre-existing ocular structures. The bionic eye implant detects and converts light into energy, which is then send directly to the brain.

So far, prostheses have been use to help people recover from infirmities, but it wouldn’t be remarkable if they were employ in regular competition. When you think about it, professional skiers use more advanced boots and skis that provide them a competitive edge in the race.

Human Augmentation in the Real World

Naked Prosthetics

Naked Prosthetics is a company that creates durable and personalised prosthetic devices, especially for finger loss. The company’s objective is to help individuals who have had their fingers amputated by improving their lives and providing them with meaningful and effective finger prostheses.

Skylight

Skylight is a platform develop by Upskill in collaboration with Google to provide smart eyewear for aviation engineers. The glasses aid in tightening B-nuts, which are an important component of jet engines. It is critical that these be properly tighten in order to prevent the engine from failing.

Teslasuit

The Teslasuit is a human-to-digital interface that uses wearable haptic technology to simulate the experience and improve the user’s abilities. The suit can regulate the wearer’s temperature, provide haptic input, and monitor the wearer’s motions. Even though this technology is now use for VR immersion, the idea use in its creation is readily applicable to human enhancement technologies.

eSight

eSight is a wearable gadget that looks like a pair of spectacles and allows legally blind people to view their surroundings. The gadget includes front-facing cameras that capture the surroundings in near-eye quality and show it on a screen in front of the wearer’s eyes.

Bioprinting

The method of producing biological tissues (organs, bones, skin, etc.) using 3D printing technology is know as bioprinting. Although this technology is still in its infancy, it has the potential to completely reshape the medical sector and how we view healthcare in general.

Zapata Flyboard Air

Zapata Flyboard Air is a turbojet-powered hoverboard. The user stands on the top of this hoverboard like a skateboard or surfboard, and the board can fly up to 140km/hr in the air. So far, the technology is a little on the pricey side.

SolarEar

SolarEar is a company that makes low-cost, solar-rechargeable, and environmentally friendly hearing aids. It contributes to the availability of an inexpensive alternative to traditional hearing aids for individuals who are deaf or hard of hearing.

MotionSavvy

A platform that converts sign language into speech and speech into sign language, essentially serving as a personal translator for the deaf. While these products are presently aim at companies with deaf workers, they may someday be expand into smartphone applications, allowing everyone to communicate in sign language.

Cochlear Implants

Cochlear is one of the first firms to create a solution that restores hearing without the need of an external hearing aid.

Google Glass

All have heard of this technology by now, even if they aren’t exactly clear what it accomplishes. While the gadget had a rough start (thanks mostly to an early announcement), vision enhancement is becoming more popular.

The use of biometric technology

Biometric technology refers to the science and technology of evaluating human physical characteristics. Biometrics is a process of analyzing a person’s identification by detecting their bodily features.

These include physiological features like fingerprints and eyes, as well as behavioural traits like a unique method to solve a security-authentication problem. Behavioral biometrics is mainly use to validate a person’s identity.

We can detect a person using fingerprints, iris scans, face attributes (ratio of various points on the face), DNA, blood vessel allocation and shape, heart beats (examples of physical attribute based biometrics), gait, voice, micro movement during writing (examples of behavioural attribute based biometrics), and other methods.

The Advantages of Human Augmentation in AI

AI will be incorporate into almost every area of life, generating new efficiencies and improving human capabilities.

Artificial intelligence (AI) is a broad tool that allows individuals to reconsider how we combine information, analyse data, and utilise the resultant insights to enhance decision making—and it is already changing every aspect of life.

It is being use to solve challenges such as data access concerns and algorithmic bias in finance, national security, health care, criminal justice, transportation, and smart cities.

Diet optimization

Developers already have a plethora of “apps” to assist us in tracking our food intake and advise on what is ideal for us and the tasks we are plan. They are just a beginning point for what may be possible tomorrow.

Increased strength

The augmented dimension provides a response to the issue of how technology may assist people in doing things better, quicker, easier, safer, and with more efficiency and accuracy. It focuses on solutions that improve human talents and skills by increasing performance and production while reducing risk:

Strength: Extended physical effort at work may result in not just employee unhappiness but also physical damage. Employees’ physical and emotional well-being is high on the agenda for companies, which explains why these solutions are in such great demand.

There are currently a number of robotic exoskeletons on the market that may be use to augment human skills and enhance strength and longevity. Several businesses have already put them in place on their manufacturing floors. Ford and BMW, for example, enable workers to do hard jobs while wearing exoskeleton suits to improve productivity and avoid accidents.

Speed : Workers in big warehouses often carry a tablet or a checklist with them for instructions, accessing products and amounts, or updating stock availability. This is a manual procedure that is prone to mistakes.

Coca-Cola provided pickers at one of its distribution centres in Greece with AR smart glasses that offer real-time advice, instructions, and volumes. When the item QR codes are re-ad, a camera on the glasses works as a scanner and instantly conducts product updates. The approach increased not only accuracy but also performance speed.

Outside of the fast-moving consumer goods (FMCG) industry, the technology has a variety of applications, including equipment operation and specialist-guided maintenance and repair.

Concluding thoughts

After discussing the changes that augmentation would bring to the human body, one can’t help but ponder what the ideal enhanced person might look like, or what ultimate objective humanity will accomplish. That remains to be see, since improving virtually every aspect of the human body is conceivable.

Are augment humans still humans Machine humans. Further exciting developments in the augmentation pipeline include bionic human joints, embedded scans, chemical balancing systems to improve physical activities, permanent, customizable contact lenses, enhanced skulls, feet, prosthetic windpipes for your throat, and so on. The options are limitless.

But the ultimate aim is something else. Even if people are aware of the benefits of augmentation, they will be sceptical of its adoption as a mainstream technology. Furthermore, since the augmentation will need the internet to function properly, significant security problems may arise, possibly interfering with the behaviour of enhanced people.

Human augmentation, in its many forms, may – and, if current trends continue, will eventually – revolutionise society, enabling us to accomplish things we never thought imaginable, making us far more efficient in the way we interact with machines, and even wiping out diseases. However, if this is to help humanity, it must be carefully consider.

Are augmented humans still humans Machine humans