Why industrial robots are on the rise

Why industrial robots are on the rise

If there is one primary trend in industrial robots in 2022, it is a steady increase in demand overall. Added to this is the excitement of interest from industrial sectors outside of manufacturing, the traditional mainstay of robotics research and development.

Among the catalysts for this interest is the combination of advanced robotic devices and artificial intelligence (AI) technologies, such as machine learning and computer vision. Now, machine learning experts can rearrange robotic equipment and assign it to a multitude of tasks across various industrial environments. Equally important, industrial robots enable jobs that reduce danger to humans, so that people and machines can work together safely on tasks that take advantage of a combination of manual and mechanical processes.

Below is a brief analysis of the key developments and driving forces behind industrial robotics.

What are industrial robots?

Industrial robots is a technology that automates industrial processes with the help of mechanical devices. Industrial robots can automatically perform various manufacturing tasks such as parts assembly, painting, visual inspection, and more.

Factors affecting the growth of industrial robots

Let’s take a look at the reason for the growth in the use of industrial robots. Why has it become scattered across a wide range of verticals, and what motivates expert predictions as such Like it by Mordor Intelligencenoting that by 2024 the industrial robotics market will be worth about $40 billion?

The motives for adopting robots can be effectively divided into two categories – those arising from the industrial environment and its development and those due to the technology itself.

External forces: industry issues and their effects

Many industries are feeling the effects of a shortage of skilled labour. At the same time, companies are reluctant to invest heavily in the training and development of unskilled employees for fear of losing them afterwards due to defection from competitors. With no end in sight to the workforce shortage, the appeal of robotics as an effective supplement, and even as a substitute for human labor continues to grow.

Efficiency and safety

Efficiency may be one of the most compelling arguments for companies that are replacing human labor with robots, because the latter do not need to sleep, eat or take breaks. They can perform repetitive tasks without a difference in the quality of work, and they do not get sick, bored or distracted.

Then there is the security component. Many industrial applications require the use of stacking, lifting and cutting equipment. These types of tasks present a certain degree of risk to human operators, but not to robots.

COVID-19 curve ball

The global impact of the COVID-19 pandemic is perhaps one of the most influential forces in the emergence of industrial robots today. Never before has the fragility of man and the impermeability of the machine been so clearly compared and demonstrated universally.

Social distancing is likely to become the norm for the foreseeable future, as is the general unwillingness to have people working together in close quarters. Therefore, it is not surprising that the health crisis has prompted more industrial enterprises to consider the possibility of replacing some manual processes with those of intelligent automated machines.

Inner forces: increasing the practicality of industrial robots

In short, companies are looking to technology in order to improve flexibility, safety, production, quality and, of course, reduce costs. Caged stationary robots are helping provide these benefits for some time in specific sectors, such as the automotive industry.

However, with automation converging with computer vision and machine learning, the advanced capabilities of industrial robots and human-machine interfaces are drawing the attention of many other industries to the technology.

When technology experts, such as bots and machine learning consultants, work hand in hand to enhance the capabilities of the bots, the results can be astounding. This amalgamation of advanced technologies has begun to transform industrial robots from operational installations into something akin to an electronic workforce. They gain the ability to navigate within their environment and carry out tasks in cooperation with humans.

vision and sensing

The ability to see in 3D allows robots to visually distinguish an object from its background, and machine learning algorithms allow them to recognize and identify complex shapes. Advances in hardware and programming are facilitating the creation of more diverse mobile skeletons and tools with sensors that can safely handle sensitive and fragile items, such as electronics.

These advances are responsible for the appeal of robots in industries that are not traditionally considered suitable for their use – think life sciences and consumer goods, for example.

Machine learning and artificial intelligence are also making robots able to safely collaborate and work alongside humans, a shift that has led to the adoption of the term cobots.

While these multitaskers in the automated world are still in their infancy, they are spurring interest within businesses and small businesses alike. As their prices continue to rise, their versatility will convince many small and medium businesses to take the idea of ​​implementing industrial robots seriously.

Do more for less

The cost of robots is generally dropping, and alternative business models such as robotics as a service (RaaS) make industrial robots available even to companies that do not have large capital budgets to exploit. The affordability of the units themselves, along with the fact that programming is becoming more straightforward and therefore less expensive, also enhances the attractiveness of adopting industrial robots.

Ultimately it comes down to the question of “what can industrial robots do within my organization?”

The answer is no longer limited to welding and spray paint. With the integration of machine learning and computer vision into robotics software, the door is open for robots to take on a wide range of industrial tasks, including:

● processing

● Cutting and shaping

● Inspection and sorting

● Pallets for loading and primary packing

● Secondary packaging

● Warehouse order selection

Therefore, we see this growth in capabilities along with delinking the robots and improving their suitability to operate safely alongside the aforementioned external drivers. In concert, they finally brought about a transformation that will soon see robots, especially cobots, a familiar sight in factories, warehouses, and similar industrial areas around the world.

Trend towards industrial flexibility?

The convergence of artificial intelligence, machine learning, and computer vision in manufacturing and other sectors is changing the game in industrial robotics, and the prediction is that adoption will grow exponentially between now and 2025. A 2019 Boston Consulting Group study found that 86% of companies, across all sectors It plans to integrate advanced robotics into its operations within the next five years.

The world surviving the coronavirus (COVID-19) pandemic is unlikely to change the minds of companies among this number, which could accelerate adoption rates. After all, the world has seen firsthand how a natural event can cripple industries that depend on people. Meanwhile, industrial robots are showing that such disasters no longer need to be inevitable.

It will be interesting to see which direction the future trends will swing in. As the world settles into a new normal, will it be one in which organizations like yours turn to robots for industrial resilience and power?

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