The modern scientific world is currently going through a very important period of creation for the sake of creation. This is the age of artificial intelligence when everything will come under your thinking. Imaginations will start becoming reality. In this life, where many problems will be solved, their negative effects will also affect our lives.
Astronaut robots
What do astronauts do? Scanning the skies night after night, and year after year with powerful telescopes is a tedious task that demands both patience and consistency. Now robots have come to take humans out of this patient phase. Now the tedious work of sifting the dust of the skies is being done by robots in some laboratories.
The light of some stars is brighter and brighter. From this, scientists infer that the size of the universe is not static in one place, but it is constantly expanding, as the galaxies are running behind each other, the universe is expanding and it is pushed by a mysterious force. Meeting Dark Energy. These variable stars appear for a moment and then disappear immediately. That is why they are called transients. Artificial intelligence is being used to analyze these stars at the Mount Palomer Observatory.
Artificial intelligence is used to analyze these images through powerful telescopes to provide a clear picture by cleaning up the noise signals found in it. Also super nova which appear and disappear temporarily can also be traced.
A social network of computers has been created for this, which will work as a unit. They will be connected by special software in computers located in Chile, Hawaii, Australia, South Africa, Texas Canary Island and will be able to communicate with each other. There is so much information stored in one night in just one observatory that it would take centuries to analyze it.
Self-driving vehicles
Have you ever played chess with a computer and realized how intelligent this machine is? Intelligently designed chess sets have been around for decades. During this period, machine intelligence has made amazing progress. This was demonstrated when a private company installed an electronic brain developed by Google that has hundreds of sensors that keep the car on the road without any human intervention. This will launch self-driving cars that will drive the car to its destination on a simple instruction from you.
These self-driving cars are equipped with a video camera, laser range finder and radar sensors to avoid collisions with other moving or static objects and to keep the vehicle on the road signal in a precise manner. It uses GPS system for continuous navigation. The vehicle is programmed to drive both aggressively and cautiously, depending on the mood of the person traveling in it. The concept of this car was presented by Google engineers and Thrune, the head of the Stanford Artificial Intelligence Laboratory. The arrival of cars with artificial intelligence and self-driving systems can solve the problem of traffic accident deaths.
The frustrating side of artificial intelligence
Will artificial intelligence someday become a threat to our existence? Self-evolving machines are increasingly likely to have the ability to make other machines better than themselves. Maybe you have ever played electronic chess and wondered how intelligent this machine is and how it can beat you by setting up its own strategy.
Robots that exist at the moment can do simple tasks such as cleaning your house and following your simple instructions. But now more complex systems have been integrated into modern robots. While swimming, these robots can sense the person who is about to drown and assist the lifeguard.
In addition, while driving on the road, it alerts the driver that the traffic ahead is stuck. Researchers are worried that the day is not far when the creation of the “Singularity” of artificial intelligence is not far away. will happen and this chain reaction will go out of control. After that, one machine will start producing another better machine.
Robotic helicopter
The US Office of Naval Research has planned an $89 million program to develop an autonomously operating air cargo system (AACUS). Under this system, soldiers will be able to quickly transfer supplies from one location to another using a robotic helicopter. Humans will not be needed to perform this important and sensitive work.
Vertical-launch robotic ships have been developed in the US to safely deliver supplies to war fronts and protect the pilot’s life. Now automatic control system is also being added to these helicopters.
Through this, soldiers on the front lines of the war will be able to order specific supplies through a hand-held device, and helicopter swarms will begin transporting urgent supplies as soon as they are ordered. This system uses artificial intelligence to perform complex tasks.
Turning bacteria into robots
Did you ever think that you would be able to command bacteria like a robot, but now it is possible. Carr used a magnetic device to control and command the bacteria to build a small pyramid. Certain special bacteria (Magnetotactic bacteria) naturally have pole-shaped compass magnetosomes (which force them to follow the attraction of a magnetic field).
The scientists infiltrated the bacteria using an external magnetic field to create a computer-controlled swarm of 50,000 bacteria, which then formed a small pyramid of tiny epoxy bricks within 15 minutes. In another experiment, bacterial aggregates are forced to travel through specific blood vessels. Now, scientists are trying to use these small workhorses as an engine that can deliver the drug to the affected area inside the large nanorobot.
These bacteria can also be used to diagnose other diseases. It can also be used as a micro-factory for genetic and pharmaceutical tests. These have been recently developed by Craig Venter and his colleagues in the US along with “synthetic life”. Computer-generated DNA can now be inserted into bacteria, which can be reproduced with the new genetic information. Can, to meet human needs for medicines, disinfectants, fuel and energy.
Prosthetic hands…… controlled by thought
At present, thought-controlled devices are rapidly gaining ground around the world. It is now possible for a disabled person to steer a wheelchair and drive a car just by thinking. Now two undergraduate biomedical engineering students, Thiago Caires and Michal Prywata, both students at Ryerson University in Toronto, have developed a prosthetic hand that can be controlled with a switch. It is powered by compressed air and is also relatively easy to make without requiring the difficult surgery that is usually done to replace a damaged or disabled hand with an artificial hand.
The person using this hand issues instructions to the artificial hand through a cap worn on the scalp. Sensors are installed in this cap which senses the change in blood circulation in the brain and then commands are transmitted through thought.
These signals are transmitted to the microprocessors installed in the hand in which the patterns of the signals like up or down or right left are already stored. These microprocessors compare signals from the brain with stored signals.
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