The future of robots comes on two feet
Most people looked at human shaped robots, and a Hollywood version of these robots has played the role of films for decades, and there are now online video for real robots equipped with feet, whether it is the ‘Optimus’ robot from the production of ‘Tesla’ owned by Elon Musk, or a robot with “Boston Dynamics” ‘Dynamics) characterized by an incredible flexibility. Robotics “, it has a robot with bones that bends like the flamingo at the knees. These robots are narrow for some, and are ideal for others. Automatic first verb on the difference between these automated devices will make robots in the form of people, a little more controversial than the” Roomba “device that is installed in the home, or a arm of six axes. Two feet help these robots to work in places where people work, and the arms enable them to capture and carry things as they move, and many companies and garage companies that they now come up and test. What thrives in the era of artificial intelligence? Despite the foregoing, robots have not yet reached the highlight of their distribution and success, they are still dangerous and have restrictions on energy and burden. Started in 1961 with Unimate, the first operating robot, the industry took two decades to change from just the initial availability to widespread distribution. This course can recently accelerate with the launch of the SO calls cooperative robots and independent mobile robots, known as the ‘arms’, recently. These two types of lane the way for human shaped robots. The cooperative robots, one of which are known as ‘Cobot’, represented a great achievement because it contains sensors that delay or stop the movement when someone or something else approaches. This prevents her from hurting someone and robots can work with people. Scientists invented this technology in 1996 and entered the market less than a decade, and it is now the fastest growing sector in the robotic market used in the industry, where 225,000 collaborative robots have already been published. Then came the spread of independent mobile robots, which are usually equipped with four wheels and a flat surface with which they can carry things. This mobile “mules” made a revolution on how warehouses were designed. These are the machines that bring things to people instead of workers to move them through a large warehouse. Automate the exhibition in Chicago last week with cooperative and mobile robots. However, attention was on the human -form robots, and the progress of making it practical tools. The biggest obstacle in this framework is to improve safety. Currently, the foot -to -Feet -Robot needs a fixed energy source to stay standing. If the electric current is cut off, these heavy machines will collapse quickly on the ground. The problem is exacerbated if the robot carries something. The researchers tried to install the robot when the electric current is out, but it becomes unstable on two feet and turns. Until this problem is solved, these machines will have to work in isolation from people. These early copies of the football robots are slow and are only charged for a few hours as they are expensive. To expand its dependence on large scale, prices must be greatly reduced, and this will happen in the expansion of production, in addition to the need for these first use cases to provide an investment such as 18 months to a year for most automation projects. Performing human tasks One of the early tasks entrusted to these robots is to load boxes of different sizes, shapes and weights to a standard 53 feet. Joel Stinson, first vice president of Global Operations Technology at United Parcel Service, said it is the ‘Holy Cup’ (something is very necessary but very difficult to achieve) for logistics services. He added that the company shows an interest in the human form of robots, but it doesn’t matter if the robot has two feet or moves on wheels. Everything that the parcel delivery business wants, can have a machine, can match the worker’s ability to load parcels and load it to trailers at a lower price. Also read: a new generation of robots. A model that moves like people and another who understands their languages that companies such as “Teradin” offers, which owns “Mir” and “Universal Robots”, and “Newra Robotics”, the emerging niche, all of animated wheels. These machines are a mix of technologies, including cameras that give the machine vision, and enable them to move around obstacles, and collaborative robots that slow or stop as they approach people. Artificial intelligence is to make these robots easier to program, and in the future work to perform spoken orders. These wheels perform some of the same tasks performed by the feet. Integration with people depends on the idea of spreading human shaped robots on the fact that the world revolves around people. These feet -robots match this societal structure rather than a society designed to turn in robotics ridden lane. This means that robots with a human form will not be limited to the factory or warehouse floor, and their benefit over other machines will be their presence in smooth and disorganized work environments, such as the construction site, as you may need to skip things or climb stairs. You will also be able to perform tasks in buildings and homes as they are suitable for the place where people work. Researchers create sensor skin to make robots sensitive to touch or perhaps for temperature. This will allow her to work closely with people, such as caring for the elderly. ‘Service robots’ are likely to be adopted first in countries with more serious population challenges such as Japan, China and other countries that have the aging of the population and limit the immigration policy. Also read: China intends to make semi -human robots by 2025 and over time machines relieved the burden on workers by performing repeated physical work. This allowed people to be more productive and earn more. This new category of robots will repeat this style. The difference is that robots with human forms work closely with people, while they prefer safety. The rules associated with how artificial intelligence should be clearly applied. However, these robots should always be seen as just tools that help people to be more productive, and they are always considered just strict things that can be closed or recycled at any time if they do not need them.