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Artificial Intelligence and Exclusive Needs of Humankind

With the development of Artificial Intelligence, there are solutions for a lot of special needs of humankind. In this article, we covered AI and the exclusive needs of humankind.

In the past, If you lost a limb or have any special need, you would have had to visit doctors for years. Your capability would have been reduced and would have had a shorter and less happy life.

However, better prosthetics and other AI-enabled devices, have made this situation a thing of the past for a great number of people.

For example, you can see a woman or a man running, dancing, etc. thanks to a prosthetic leg today. These days, some humans can run a marathon or go climbing although they’ve lost one of their limbs.

The Software-Based Solutions By Artificial Intelligence

A great number of people using computers today rely upon some kind of solutions based on software to meet special needs.

A screen reader called Job Access With Speech (JAWS) telling you about display content using complex methods is one of the most significant solutions.

As you may imagine, each technique that both AI and data science rely on to condition data, interpret it and then provide a result likely occurs within the Job Access With Speech (JAWS) software, which makes it a nice way for someone to comprehend the skills and limits of software-based solutions.

To see how it works, the best way for you is to download and install the software. After the installation, use it while blindfolded to perform specific tasks on your system.

Image by Pete Linforth from Pixabay

Counting on Hardware Augmentation

Many types of special needs require more than just software to address adequately. There are various ways in which exoskeletons are used today in preventing injury, augmenting natural human capabilities, or addressing exclusive needs such as allowing a paraplegic to walk.

Nevertheless, many other kinds of hardware augmentation address other needs, and the vast majority need some level of AI to work correctly.

For instance, consider the use of eye-gaze systems. The earlier systems counted on a template mounted on top of the monitor.

A quadriplegic could look at individual letters, which would be picked up by two cameras that are one on each side of the monitor, and then typed into the computer. By typing commands this way, the quadriplegic could perform simple tasks at the computer.

Some early eye-gaze systems linked to a robotic arm by the computer. The robotic arm could do extremely basic but significant actions, such as helping users get a drink or helping them scratch their noses. Modern systems actually help link the brain of a user directly to the robotic arm, which makes it probable to complete tasks such as eating without any help.

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