AI – the backbone of robotics, nanotechnology and future gadgets

“The science and engineering of making intelligent machines, especially intelligent computer programs”
Artificial Intelligence is one of the world’s highly advanced topics. The AI research firm OpenAI is working hard these days to help us acknowledge AI’s ability and the issues that society needs to address on this fascinating topic. They are trying to ratify the road to secure artificial general intelligence, a significant shadow. Artificial Intelligence (AI) is an informatics branch. It involves the creation of computer programs that would require human intelligence to complete tasks otherwise. AI algorithms can tackle learning, cognition, problem-solving, language and logical reasoning, digital data processing, bioinformatics, machine biology, etc.

In the contemporary world, AI is used in several respects. AI algorithms, for example, are used in Google searches, Amazon’s recommendation engine, and route finders for GPS. Many Robot Control AI programs are not included. By using AI to control robots, AI algorithms are just part of the broader robotic network, including sensors, actuators, and programming other than AIs.

AI has become such as integral part of our life, we cant imagine our life without it. We using AI well driving to the office searching for restaurant, news updates, shopping online and even for recommendations on social media. Accorning to a Gartner report AI estimated to paved the way 2.3 million opportunities by the year 2020. Also vancies in the field about AI have doubled over the last 3 years. And the career opportunities existing in private companies, public organizations, health care industy, education and govt. Institutions.

Applications of AI (Robotics)

The most exciting area of robotics is arguably artificial intelligence (AI). Robotics is a technology branch that specializes in physical robots. Robots are programmable machines typically capable of performing a series of actions autonomously or semi-autonomously.
AI helps to save the movements that a robotics system makes, while improving them continuously, making installing and moving robotics systems simple enough for anyone. Robots are now being used in retail stores and hotels around the world, in a customer service capacity. AI provides a computer vision for the robots to navigate sense and calculate their reaction accordingly. Robots learn to work by machine learning from humans there, which is again part of computer programming. It’s time to set it right once and for all.

There are three main factors which make up a robot:
1. Robots interact with the physical world through sensors and actuators.
2. It’s programmable for robots.
2. Generally, robots are independent or semi-autonomous.

The link between robotics and AI is that of artificially intelligent robots. These are robots powered by programs running AI. If you want to let the robot perform more complex tasks, AI algorithms are required.

To travel around the warehouse, a robot in warehousing can use a path-finding algorithm. If the battery is about to run out, a drone could use autonomous navigation to return home. A self-driving car may use a combination of AI algorithms to identify potential road hazards and avoid these. Those are all examples of artificially intelligent robots.

Applications of AI (Nanotechnology)
Although nanotechnology incorporates physics, chemistry, and engineering expertise, AI has relied heavily on biological inspiration to create some of its most successful patterns, such as natural networks or evolutionary algorithms. Bridging the connection between current nanoscience and AI can boost research in these disciplines and provide a new generation of information and communication technologies that will have a significant impact on our society. Nanotech powered computer hardware could surpass the GPU and lead to breakthroughs in today’s Deep Learning press. Imagine nano-enabled hardware with capabilities beyond the development by IBM of the world’s first artificial phase-change neurons, or the Nervana acquisition by Intel.

AI may be using nanotechnology to create foods, including substitution and restoring human organs. This may have drastic consequences for life-extension, for all humans or the wealthy.
The intersectional analysis Marshall is pursuing through his posts is an excellent example of deriving the foresight needed to navigate this emerging future. The instance of nanotechnology shows us how one aspect of innovation accelerates, steers and amplifies another’s effect. This trend is one of the driving forces behind the rapid development we are seeing.

In 2017, and 2018, artificial intelligence was among the most hype-up. Many cool AI devices can change our lifestyle. These are:

Virtual co-driver Chris is the very first remote driver assistant. It is a smart mobile app that can connect you while driving with your digital life. Mycroft is an adorable and smart home device which responds to verbal commands and communicates with other devices so you can quickly manage your home. Ambi climate application senses and gives users live data, which helps create a custom comfort profile, to change your environment optimally. Another example is Tapia, a household contact robot with a height of about 25 cm, is very compact. It is implemented with a camera, speaker, microphone, touch screen display, built-in battery, and so on. Besides speech recognition, voice synthesis, and face reorganization, you will enjoy communication with Tapia every day.

Mastery of AI: Artificial Intelligence ( AI) helps us reduce the error and the probability of achieving accuracy with greater precision. Artificial intelligence can be used in mining and other processes of fuel discovery. Artificial intelligence is commonly used for data processing and management by financial institutions and financial companies as well as banking institutions. The artificial intelligence can carry out repetitive jobs which are monotonous in nature. Artificial surgery finds a huge application to diagnose and control neurological conditions as it can mimic the activity of the brain.