It is undeniable that people are increasingly dependent on technology. The films show a fully connected futuristic perspective, and the imagination does not rule out the possibility of extraordinary things happening. Although it still seems distant, there are already some tools that are very promising, even capable of revolutionizing the perspective we have in different sectors. In this article we talk about some ways in which robotics can change the world:
1. Autonomous Cars
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It is no longer difficult to imagine a future in which we will not have to worry about the direction of the vehicles. There are already some models that have the option of parking alone, but in a few years, the idea is that the vehicle will be able to drive completely independent of human assistance.
Manufacturers already have projects for autonomous cars; that is, the future of vehicles that travel alone is no longer so distant. The popularization of this type of technology can not only facilitate social work but also reduce the occurrence of traffic accidents.
2. Medical Robots
It is no secret that medicine is a science that is continually advancing. With each passing day, discoveries are made to revolutionize the way humans need to deal with health. There are already numerous tests of robots and electronic tools that can contribute to the advancement of medicine. Some surgeries are already performed by “medical robots”. The great advantage of this technology is technical precision and the possibility of less invasive surgery.
3. 3d Printers
The arrival of 3D printers has revolutionized the printing world. Although it still has high investment value, there are already some projects, such as the construction of houses, in progress through this type of technology. The increase in population, the concern with sustainable development and the need for fast processes may boost the use of 3D printers. It will be feasible to build different structures without dirt, without the mess and, best of all: in a practical and fast way.
4. Personal Assistant
Personal assistants, who have gained weight through smartphones, are already starting to arrive at people’s homes as an essential part of everyday life. The ease of just having a voice command to get things done on their own is a massive step for technology.
Despite appearing to be a “lazy thing”, this type of technology allows people to be more agile to carry out different activities at the same time, n essential aspect for the globalized world.
Nanotechnology is considered to be a technology that acts in microscopic sizes, like an atom. This sector has won many bets for industries such as the pharmaceutical sector, in which it will be possible to enhance the effect of medicines through Nanorobots.
Through this tool, the remedies would be able to reach only the area that needs care, reducing the side effects in the body. A form of nanotechnology widely used today is microprocessors, which allow for increasingly smaller and more functional equipment.
6. Artificial Intelligence
The films about intelligent robots that mix among humans may not be quite so fiction. The combination of robotics with software and a database could revolutionize different sectors of life as we know it today.
Artificial intelligence could help to boost production capacity and even creative through its algorithms. It is possible that in the future, several current work positions will be replaced by artificial intelligence.
Drones have become a fever in recent years, and the trend is that it will only increase. There are proposals for drones to become the motor boys of the future. In addition to facilitating people’s daily lives, it is also a proposal that aims to reduce greenhouse gases due to the lower consumption of cars.
Robotics gradually shows how much its advance can influence and improve human relations with each other and with the world. Even if it seems incredibly distant from happening, it is possible that in a few years, the technological world will undergo innovative transformations.
Why is Robotics Important in The World?
Robotics makes students have a closer relationship with science and technology especially in areas of knowledge that generate significant interest in students. Therefore, robot programming creates a series of benefits for the quality of teaching.
To help you better understand the role of robotics in the world we live in, we’ll highlight some of the advantages it offers.
1. Stimulate Logical Thinking
In robotics classes, problems are presented that must be solved. This requires a lot of concentration and a logical sequence to accomplish the task. If there is no link between the initiatives needed to solve a problem, students will be lost and will not perform well. This aspect shows how logical reasoning is indispensable for assembling a script to obtain the expected result.
The challenges are fundamental to the formation of critical thinking that involves not only the creation of the robot but also the activities that it must carry out and the mechanisms used to control this equipment.
2. Strengthen Team Spirit
In addition to logical reasoning, robotics students have a greater focus on teamwork. Some schools hold competitions in which the ability to program a robot is assessed.
In these disputes, teams are formed that prioritize the development of robots to carry out a specific task or series of activities. Only groups that exploit, to the maximum, the ability of the members to contribute with actions for the execution of high-level work, achieve dramatic results.
Above-average performance is only feasible if there are unity and humility in the group to achieve the objective. This mentality is strengthened as students participate in more competitions in the robotics segment.
3. Foster Creativity
Robot programming is a challenge that stimulates creativity because students are forced to leave their comfort zone. In other words, they must think of practical and efficient solutions to resolve a demand as quickly as possible.
No invention becomes relevant if there is no creative effort to make it something different. Staying comfortable and waiting for solutions to problems to emerge out of nowhere is one of the biggest mistakes anyone makes today.
4. Develop More Skills To Solve Complex Demands
Logical reasoning, team spirit and creativity are essential factors to solve severe problems. On the other hand, it is no use for robotics students to have these characteristics, if they do not have a very relevant factor in order not to succumb to problems which is “persistence”.
Another essential quality that is developed by those who adopt robot programming is resilience. The ability to adapt to different scenarios is a differentiator for those working with technology. This is because it generates more tranquility and confidence to face challenges and adverse situations.
5. Improve School Performance
As a student is more able to reason with logic and work with planning, the higher the chances of assimilating the content and preparing correctly for the tests.
Robotics can also help the student to improve writing because he has more resources to write, for example, a project more transparently and concisely. Another positive point is to make students more focused on the activity. In this way, it contributes to an understanding of the contents linked to the disciplines of a foreign language, mathematics and physics.
6. Being More Connected With The Job Market
Companies look for employees who are flexible, attentive and know how to work with deadlines to perform tasks. Through robotics, employees start to use technology with more intelligence and planning.
It is not possible to carry out an important project with creativity alone, as it is necessary to concentrate and focus on results. The corporate world wants employees who already have this mindset. One reason is the ease of those who have this attitude of getting used to the organizational environment.
Rapid adaptation is positive for any corporation. One reason is that an engaged employee can be more productive, which is essential for companies to be competitive and able to adapt to different scenarios.
Is Robotics The Future?
Robotic technology advances day by day by leaps and bounds, and many dilemmas or problems that robots pose, and that human society put off in the distant future, become current, such as the case of unequal competition between humans and robots for the job.
On the other hand, as science and engineering improve their robotic developments, it is possible to start comparing current prototypes with what until a few years ago we imagined would be the future.
In the future: Humans vs. Robots
A group of researchers have conducted studies according to which in just 30 years humans will have to compete with robots for jobs; which would imply in many cases the need to graft implants that make humans more robotic, that is, more efficient for this competition.
According to the study, cited by the British newspaper Daily Mail, in 2040 the human will have difficulties insight, wide waists and smaller genitalia than now, due to the labor demands to which he will be subjected.
For this reason, bionic implants will appear, similar to smartphones in the ears, security chips in the fingers, and everything that is invented and favors the improvement of physical and mental fitness. Anyway, the study warns that still many jobs will not be able to be replaced by robots, like those involving decision making, creativity; or for example, the construction of robots.
Nowadays: Robot Ants
American scientists at SRI International have already developed and built robot ants that would significantly improve the performance of manufacturing small objects made of glass, metal or wood. These robotic worker ants move at a speed of 35 centimeters per second and could be very useful in building artificial cell structures or electrical circuits.
They will not be like Terminator
One of the main differences between what humanity imagined their future robots would be and what robotics present proposes is the context: they are not at all stable and rigid forms like the famous Terminator, but on the contrary, robots that are almost always small, flexible and composed of soft parts; This is Bubbles, a robot fish exactly like a carp, developed at the Massachusetts Institute of Technology. It is the first autonomous, and a self-sufficient robot made almost entirely with soft parts. It happens that soft robots do not require full control of their movements (as happens with rigid ones), so they are better for coping in uncontrolled environments, such as in a natural disaster.
Will Robotic Takes Away The Real Jobs?
A robotic Engineering career is the one that develops all the technological advances of many products of daily use and specialized in more complex areas.
This career is in charge of designing everything related to computer systems, digital systems and electronics for robots. All these branches are up to date with the technological advances present in the objects that have become parts of our daily life, such as cell phones, cameras, video games and other series of the different electronic components that surround us.
Also, robotic engineering has the tools not only for the improvement of the objects of our daily life but also for specific purposes. For example, robotic parts that are used in airplanes, satellites or innovative devices for medical use, either to diagnose diseases or to perform surgery.
This career is closely related to other areas and jobs such as Physics, Systems Engineering, Mechatronic Engineering, Electrical Engineering, Mechanical Engineering, Telecommunications Engineering, Computer Engineering, among others.
What Does a Degree In Robotic Engineering do?
Graduates of Robotics Engineering can apply their technical, scientific knowledge to:
- Use specialized software in the design and development of robotic equipment.
- Design, manufacture and maintain automated systems and production equipment for different industries.
- Plan, start-up, and keep industrial plants in operation.
- Investigate and implement new technologies to improve areas of scientific production and innovation.
- Create and manage small and medium-sized companies in the field of automation and manufacturing.
- Design and adapt the intelligence components that allow a robot to be autonomous in solving problems.
- Create hardware and software interfaces that enable intelligent interaction between digital devices.
Consider studying robotic engineering if:
- You want to innovate in mechanisms that help many industries. This career prepares you to invent or improve different mechanical devices that are capable of reproducing human movements to manipulate all kinds of objects.
- You are attracted to software development. Many of the parts that are manufactured need specialized software. Both to program the movements that specific devices will make or even to develop all kinds of artificial intelligence.
- You like the world of robotics. If you read all of Asmiov’s stories as children, it is your time to participate in the wonderful world of artificial intelligence.
Where does Robotics Engineers work?
Robotic engineering has had a significant development in the last 20 years, so it is increasingly common for companies or research institutes to invest in this area.
As a graduate with a degree, you can work in any factory or industry. For example, the automotive, any sector that does manufacturing, scientific innovation (medical or aeronautical). In any of these, you can work in the following areas:
- In artificial intelligence development companies in Mexico or abroad. Developing or applying artificial intelligence systems.
- In the manufacturing industry of northern Mexico. Design and development of methods for a specific use. For example, for individual fundamental machines in the manufacturing chain of different products.
- Research and development centers for new technologies. Institutes, Universities or the scientific research areas of companies.
- Administration and consulting in digital systems. Either as part of a company or independently or Freelance.
Robotics & The Future of Work
When it comes to the future of work, it is essential to consider the extent to which robots can replace or complement and improve the practice of humans. A future where robots continued to be developed primarily for complementary purposes would be the least difficult scenario for society as humans would not be put in competition with robots and automatons and traditional roles would be largely preserved.
However, economic and productivity pressures are likely to lead instead to a substitution approach where individuals and groups are replaced at their workstations by robotics and automation. Overall, less labor will be needed for routine jobs or jobs based on clearly defined tasks because industrial and service robots can provide them.
This will result in a relative increase in the demand for highly skilled workers and a decrease in the market for less-skilled workers, traditionally occupying jobs characterized by routine manual or cognitive tasks. This “erosion” of medium-skilled work could lead to the loss of around a third of all current posts in the coming decades.
The dilemma between complementarity and substitutability and the balance between job preservation and unemployment caused by technological progress is a complex issue for policymakers, business and civil society at large. The broader implications of robotics’ repercussions on the labor market, economy and society raise difficult social and political questions.
The debate on intelligent machines and the impact of robotics and ubiquitous technology on culture, the economy and employment have remained rather passive, and few well-structured ideas have been developed on the limits of using robots and of the automation of the company.