Self-healing computers

 Self-healing computers can mean the end of computer crashes and performance issues.

Wouldn't it be great if computers could solve their own problems?  What if your computer adapts to the task at hand to keep up with the rush hour?  Computers often perform performance improvements through routine design, such as disk defamation.  More recently, improvements in virus protection and destruction can undesirable identify viruses before they affect performance.  In the future, computers will not only solve software problems, but will actually identify hardware problems and sort out tasks around damaged hardware.  For many, this may seem like a good idea. 

 The goals of such maintenance and troubleshooting can be very time consuming and frustrating.  Technology has made better self-fixing computers and they will continue to evolve to improve your life as you look to the future, now imagine that you run a business, and if these goals are not achieved you will lose time and money.  This is not a happy day dream and without a properly trained system administrator to keep the server running without interruption it quickly becomes a nightmare.  Although many experts predict that supercomputers and business systems are unlikely to be too complicated to be managed and secured by humans.

 IBM has announced plans to focus research efforts on developing such servers only.  Called the Autonomic Computing Initiative (ACI), the project hopes to free businesses from time-consuming computer maintenance.  IBM hopes that the new system will be self-regulating And will be literally invisible.  They believe that autonomous design has a built-in ability to revolutionize the way business is done in computing.

  Autonomic computing is a system that allows machines to run with very little human intervention.  Such computers may not have self-awareness but they will be self-correcting.  Autonomous processes in machines are tailored to human autonomic processes.  For example, you are not breathing consciously.  Instead, your body monitors your breathing without doing anything.

Scientists hope that autonomic computing will behave in a similar way and keep the system running smoothly without any interference.  Autonomic machines can detect and correct security flaws.  They can predict slow computer performance and take corrective action.  They can find new equipment, format it, and test it.  The use of the computer will be less complicated so that you can focus on getting the job done instead of taking care of the usefulness of the machine.  These goals are effective, and the autonomic computer is still in its infancy. 

 It is important to note that autonomic computers are not artificial intelligence because autonomic computers do not have human comprehension and intelligence.  Instead, these machines have knowledge of their own systems and the ability to learn from experience to correct mistakes.  Given the built-in capabilities for self-maintenance servers, the chances of a similar system being built for a personal computer seem to be lower and higher.  What do you think  Do you think that it is possible for a computer to take care of its own security?  Do you think it is possible for a computer to manage its own security?  Will hackers find a way to overcome the intelligence of these "intelligent systems"?

Chips in your brain

Have you ever thought that you can communicate with a computer just by thinking?  Or will improve hearing.  Simple computer implants are used to reduce the risk of heart attack.  Nowadays, implants are used to regulate the intake of drugs and to improve prosthetics.  In the future, you may use different devices (usually worn on the head) that will use your basic thinking to move objects, such as wheelchairs.  However, in the future there will be implanted microchips that will interact directly with your nerve cells.  Their initial purpose will be to treat a variety of medical conditions, but over time (and with severe differences) they will go on to improve the various functions of the otherwise healthy human brain. 

Technology is planting better and will continue to change to improve your life as you look to the future.  For decades, doctors have been using Deep Brain Stimulation (DBS) to treat many disorders, such as Parkinson's.  Just as they were successful for many patients, these impulses send electrical stimuli set before the brain.  There is no active interaction between neurons and machines.  Researchers working on a chip called Renachip hopes to change this by using a programmable computer chip that responds to what is going on in the patient's brain.  This silicone used chip can measure the electrical movements of the brain and then deliver the appropriate stimuli when and where needed.

 A second brain implant is currently being developed with the goal of helping the blind regain some sight.  A microchip is inserted into the visual cortex of the brain,Your G is responsible for processing images.  This chip will communicate wirelessly with the camera inside the special glasses worn by the person.  The chip will process the images captured by the camera and then feed directly to the nerve cells in that part of the brain.  Getting closer to the world is incredible, researchers are actually working to improve the ability of computers to read human thoughts. 

 Currently, a research team has been able to use a chip implant and a computer to read the thoughts of a woman who has suffered a stroke so that she can move her robotic arm.  Although the success rate is not 100 percent and the processing is limited to basic movements, the patient is able to move the robotic arm with the idea of ​​holding a cup of coffee.  It is hoped that this research will enable millions of people with disabilities to use improved prosthetic devices that are controlled by thought. 

 Many ethicists are concerned about the possibility of using such chips to improve human capacity rather than treat a medical condition.  For example, since so many are stored on such small chips, people will use brain implants to improve their strength.  This can lead to a variety of situations where transplanted people can take undue advantage of non-transplanted people.  However, others disagree that the integration of technology and biology is to be expected and that this will be the only next step in the human revolution.  

If such technology spreads everywhere and is available at affordable rates, would you like to plant a chip?  Would you differentiate between using it to improve your medical condition and only to improve your mental state?  Do you think that the future of humanity lies in the integration of technology into human biology?  Ability to do