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10 Top Robotics Trends in 2022

  • Ayush Singh Rawat
  • Jan 14, 2022
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Introduction

 

Robotics technology is advancing at a rapid rate. Robotics is an interdisciplinary field of study that deals with the design, manufacture, operation, and use of robots. Every industry's future depends on robots. 

 

Robots are becoming increasingly popular in the industrial business, and some experts believe that this trend will never go away, rather flourishing with the passage of time. Robots are utilized by industries, businesses, and even families to complete activities that a person cannot.

 

The purpose of robotics is to create intelligent robots that can assist people and industries in doing their tasks more efficiently. The epidemic has resulted in a number of changes, both in our personal lives and in the technology realm. 

 

Some industries have suffered as a result of the epidemic, while others have a variety of chances. On the one hand, the robotics industry has had a scarcity of supply and demand, but on the other, it has seen significant technical improvement. 

 

Robotics Automation is a sector that is rapidly expanding. Industrial robots have been widely used in industries throughout the world for a few years. Their popularity is growing every day as a result of their increased production, appropriateness, and profitability. You may wonder to know about self-healing robots- a new generation of robotics. 

 

In the industrial sector, robotics has ushered in a revolution. The robots' next move will be to modify their work. As a result, we should keep an eye on what's coming next, because the robotics sector is wide, and the future usage of robotics is unknown. Everyday robots contribute to the advancement of engineering around the globe.

 

New robotic trends emerge with the passage of time, so let's take a look at the top robotics trends for 2022, which will definitely delight any techie out there.

 

 

A list of robotic trends

 

  1. Smart Factories

 

Manufacturing and distribution businesses, for example, will become more intelligent as robots get more intelligent. Industrial robots and automated solutions will help assembly lines, and smart factories will become commonplace. 

 

As a result, we should expect speedier, more efficient, and more exact procedures with fewer discrepancies. In the future, robots and autonomous mobile robots (AMRs) will interact, requiring less maintenance and human intervention.

 

The smart factory is a term that refers to the utilization of many current technology combinations to produce a hyper-flexible, self-adapting production capability. 

 

By linking diverse processes, information streams, and stakeholders (frontline employees, planners, etc.) in a streamlined manner, smart factories may develop new kinds of efficiency and adaptability. Smart factory projects are sometimes known as "digital factory" or "intelligent factory" initiatives.(Here)

 

  1. The Rise of “Cobots”

 

One of the most popular advances in robotics and electrical engineering is the usage of collaborative bots, sometimes known as "cobots." These robots are designed to work alongside people in a safe and effective manner, with no need for any health and safety restrictions. 

 

Using advanced sensors and software (as well as things like end-of-arm-tooling), these bots can instantaneously detect changes in their work environment, allowing them to adapt as needed while keeping people safe. According to estimates, this business will grow significantly by 2025 as a result of recent advances in programmable software.

 

Cobots are evolving into technology that can be built and set up by users. Back-breaking, repetitive, and unpleasant labor can be given to cobots, letting people focus on work that best utilizes their skills and abilities. Industrial cobots' core strength is that they enable people and robots to interact in a flexible and dynamic manner.

 

  1. Labor Shortages and Robotics

 

During the COVID-19 pandemic, it became clear that robotics and automation were a safe way for manufacturers to keep workers socially isolated while still operating when lockdowns were enacted or infection rates skyrocketed. In addition to the labor shortages seen during the epidemic, many countries' working populations are continuing to age and retire. 

 

While some of these occupations will not be replaced by robotics, automation and robotics will be able to replace more jobs in the future. Retail and consumer goods are two additional industries where worker shortages are a problem. Deploying IoT in the manufacturing industry is a beneficial step. 

 

  1. Rise of AI Robots

 

Traditional robotics programming will continue to evolve as AI improves in numerous industries. To increase the efficiency and effectiveness of robots, many features may be introduced utilizing AI or machine learning. 

 

Healthcare, agriculture, automotive, warehousing, and supply chain management are just a few of the areas where artificial intelligence and robotics will continue to advance. To assist with robotics and automation, artificial intelligence is already being created.

 

  1. Robotic Opportunities Expanded

 

Throughout the previous decade, the demand for robots has rapidly increased. The human ability to do jobs has been impacted by COVID-19, labor shortages, and the need to reduce carbon footprints. 

 

These external influences have increased the need for automated robotics systems and equipment outside of traditional industrial and warehousing applications. In the future decade, it will only continue to increase at an exponential rate. 

 

  1. Accessory for Next-Generation Robotic Technology

 

Each new technical breakthrough will be incorporated into new robotics and automation system designs and models in the future. Robotics systems and equipment, for example, are already benefiting emerging technologies and their improvements. The technology alternatives include 3D sensors, ultrasonic technologies, and infrared cameras, to name a few.

 

  1. Maintenance Robots on the Rise

 

Maintenance is one of the most crucial responsibilities for any industrial facility since it allows for the prediction and prevention of malfunctions rather than having to respond to them. 

 

According to research from the National Institute of Standards and Technology (NIST), maintenance expenditures range from 15% to 70% of the cost of items produced, with a positive return on investment for using predictive maintenance strategies.

 

Maintenance jobs are by their very nature repetitive, making them ideal candidates for automation. Furthermore, the AI tools included in these sophisticated devices can assist in the transition of maintenance from a human-centric to a highly autonomous activity. 

 

With time, AI and robotics may be able to shift maintenance from a 'best practices' preventative check-list to more proactive predictive measures based on identifying possible problems through frequent data analysis—a paradigm more akin to repair before the problem arises.'

 

  1. Robots As A Service

 

Smaller businesses who wished to incorporate robots into their production floor used to be limited by experience (and the expense of retaining it). This is no longer a concern, thanks to the growing everything-as-a-service (XaaS) trend.

 

Not every firm has the financial resources to hire all of the workers needed to support industrial robots, especially in the midst of the industry's worst skills shortage in decades. 

 

Yet, thanks to RaaS, or Robots-as-a-Service, models, businesses may now benefit from robotic process automation without the hassles of conventional ownership. Many people are familiar with subscription-based programs as SaaS (software as a service) models. RaaS intends to function in a similar manner.

 

Robotic gadgets are rented rather than purchased outright. Monitoring, analytics, and preventative maintenance are frequently included with subscriptions. There are several advantages. Rapid scalability, lower upfront expenditure, and the capacity to redesign systems as needs evolve are all examples.

 

  1. Putting the environment first

 

Organizations at all levels are beginning to place a greater emphasis on the environmental consequences of their daily operations, which is reflected in the technology they use. 

 

The robots of 2021 are designed with the environment in mind, as businesses strive to decrease their carbon footprint while enhancing procedures and generating profitability. 

 

Modern robots can save resources by producing work that is more exact and precise, avoiding human error and the additional material required to correct a mistake. Robotics can also help in the manufacturing of renewable energy equipment, allowing external organizations to reduce their energy use.

 

10. Robots reduce carbon footprint

 

The need for a lower carbon footprint will also encourage investments in advanced robot technology. Modern robots are energy efficient, lowering industrial energy use immediately. They create fewer rejects and poor items as a result of their increased accuracy, which has a beneficial influence on the ratio of resource input to output. 

 

Robots also aid in the cost-effective manufacture of renewable energy equipment like photovoltaics and hydrogen fuel cells.

 

 

Conclusion

 

The need for robots has risen steadily during the last decade. COVID-19, labor shortages, and the desire to limit carbon footprints have all had an impact on humans' capacity to execute tasks. 

 

Outside of typical manufacturing and warehouse sectors, these external variables have driven the need for automated robotic systems and equipment. It will only continue to grow at an exponential rate in the coming decade. As the use of robots spreads across all areas of the global economy, robotic training and education will become increasingly important.

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