Hyperautomation is an advanced form of automation used in manufacturing industries. It’s a new technology that reduces the need for employees to monitor and perform specific tasks. The main idea is to replace human workers with this technology to minimize limitations and errors in the process.
While companies have been using automation for some time, recent research and development have taken it to a whole new level. In fact, 88% of companies now consider automation essential for their production.
According to Gartner, the global hyperautomation market is expected to reach a massive $600.0 billion by the end of 2023. This shows how popular and trending this technology is.
This article will provide detailed information about the important features, advantages, disadvantages, applications, and future possibilities of hyperautomation. It aims to give readers a clear understanding of this exciting innovation.
What is Hyperautomation Technology
Hyperautomation combines various advanced technologies such as Machine Learning and Artificial intelligence, together with Robotic Process Automation.
This technology aims to fully augment human capabilities by building intelligent robotic systems that can do anything a normal human can.
These systems are designed to think, reason, compute and collaborate. In essence, it provides an improvement in the human factor in any endeavor. It enables machines to work alongside people in every walk of life.
Features of Hyperautomation
One of the most important features of the emerging breed of hyper-automated systems is intelligent software or self-programming code that runs on routers and nodes.
The logic engine of the computer then processes this programming code and executes the desired operation.
The implementation of the technology involves using various protocols, including TCP/IP, HTTP, SMTP, and SOAP. In addition, hyper-automation technology features include:
- Cognitive invoice technology,
- Real-time collaborative real-time information flow systems,
- Technical support services for on-site and off-site
- Service centers managed service offerings
- Real-time web services.
The other interesting feature of this future technology is that it will enable real-time execution across wide-ranging applications.
History of Hyperautomation
The term “hyperautomation” was first used by noted mathematician Alan Turing in 1931. He came up with an idea to link computer hardware and human brains to make the latter able to do almost any task necessary to solve any problem.
After the development of the electronic computer, many other developments have come in the form of software specifically meant for manipulating data sets.
Afterward, these programs are increasingly used in research and business activities, leading to hyper automation.
Advantages of Hyperautomation
Hyperautomation enables robots to work alongside humans in any industry. These robots can serve as assistants or substitutes for human workers in many situations.
There are instances when workers sit in front of the computer because they find it relaxing. Extended sitting can result in poor blood circulation, vision impairment, and other physical ailments. Therefore, hyperautomation technology is beneficial in this condition and can work well in eliminating such problems.
The other advantage of these automated systems is that they increase the productivity and efficiency of a workplace. With increased productivity, there is less need to employ more human workers for the same task.
Hyperautomation allows the company to achieve more production targets in a shorter time. Certain companies have started using these robots for packaging and unpacking food items. These people can do their work more efficiently as they do not have to leave their desks to complete such tasks.
Additionally, these robots help to lift heavy loads in industries. For instance, forklift robots allow workers to move heavy loads without getting tired easily.
The most significant advantage of hyperautomation technology is that it makes the working environment safer for everyone. It is because there is less risk of employees bumping into each other, which causes physical injuries.
Disadvantages of Hyperautomation
The primary disadvantage of hyperautomation technology is, it is too costly and complicated. It is especially for small businesses that can not afford to buy their own machinery.
By taking the time to learn about the machine, the business owner will have the ability to get the most out of their investment.
Another possible limitation deals with safety. Many people may not be as comfortable operating these machines because they are massive and cumbersome.
Additionally, certain medical professionals may not be comfortable or capable of using such a system. The use of robots can be somewhat not reliable for them. Many individuals feel more comfortable if they are not required to be completely remote while in surgery.
Application of Hyperautomation
According to Gartner, Hyperautomation can become one of the top technology trends within a decade. The reason behind that is the applications of hyperautomation in various fields.
Hyperauomation makes the complicated task super easy for the employee as many technologies are integrated with it. It provides flexibility, improves efficiency, and decreases the time for the process. Eventually, it is increasing the firm’s profit by increasing productivity in a shorter period.
Another area where this type of software application has been widely used is asset tracking. Today, many companies and businesses use these programs to track the inventories of their company and even their items.
The inventory items are trackable as they are placed on shelves or stored in a warehouse. Thus, it enables employees to know at what rate they are moving items in and out.
One of the most prominent applications of this technology in the medical industry is tissue grafting. This process used to require the use of a needle and thread to graft the tissue into the patient.
Today, from applying the graft to its placement under the skin, the entire grafting process is made much more efficient and less painful for the patient because of hyperautomation.
Another application of this technology today is in the military and police industries. The application of hyper-automation has greatly reduced the time required to complete certain tasks, such as installing new equipment, virtual military training, and maintaining security systems.
Future Scope of Hyperautomation
In the future scope of hyperautomation technology, the manufacturing industry will achieve more incredible speed, efficiency, and productivity.
As a result, products can be produced at a fraction of the time and cost normally associated. For instance, a manufacturer can use digital imaging and 3D scanning combined with automated processing to create a physical product like a part or even an entire system.
In addition, the data collected from the machines will allow the manufacturers to make statistical analyses.
The output may also allow the manufacturing industry to determine the necessary units to meet projected demand.
Again, this may help the industry determine whether there are enough resources available to meet current demand and future demand.
As such, this type of system may be one of the keys to the future success of the manufacturing industry. Since the machine can already tell the exact ingredients that each unit needs, it could cut down on waste by making the best possible use of each machine.
Furthermore, this type of system may allow the user to upgrade as required, depending on what is available. Hence, the system allows the manufacturer to keep up with supply, cut down on waste, and profit from what is being produced.
To summarise, the future may bring many new uses for these automated systems, which is effective as many advanced technologies are associated with the process. Moreover, they may become an important part of the manufacturing industry by taking over monotonous tasks that humans used to do. Therefore, hyperautomation may prove to be just the sort of machine that opens up many more doors in the field of the manufacturing business.