Automation

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Automation

Automation refers to the use of technology to automate tasks and processes, typically in a business or industrial setting. This can involve the use of machines, computers, or other technology to perform tasks that would otherwise be done manually by humans. Automation can help improve the efficiency, productivity, and accuracy of a business or organization, as it allows tasks to be performed more quickly and consistently. Automation can also help reduce the need for human labor, allowing businesses to save money on labor costs and reduce the risk of errors and mistakes. Examples of automation include the use of robots in manufacturing, the use of computer algorithms in financial trading, and the use of self-service kiosks in retail settings.

A 2020 global survey by McKinsey and Co. states that 66% of businesses have piloted the automation of business processes in one or more business functions. This is a significant jump of 9% from 57% in the previous survey of 2018.

To satisfy our curiosity, the team at AEY Group has been exploring different automation approaches for internal and client business processes. On top of being one of the most exciting fields of the current tech landscape, it is one with great business value and even greater potential.

Examples of Automation

Home Automation

Automate lighting, temperature, sockets, security and other aspects of your home

Office Automation

Automate office doors, lights, sockets, server maintenance, backups, reports etc

Process Automation

Leverage technology to automate and harmonize processes and workflows

Scripting

Automate your mundane and repetitive tasks through CRON jobs and bash scripts

Benefits of Automation

  • Improved productivity
  • Optimize usage of organization resources
  • Improved efficiency of processes
  • Reduced labour costs

Automation FAQs

What are some examples of automation?

Some examples of automation include the use of robots in manufacturing, the use of computer algorithms in financial trading, and the use of self-service kiosks in retail settings. Automation can be applied to a wide range of tasks and processes, from simple tasks such as sorting and organizing data, to complex tasks such as analyzing data and making decisions.

Some challenges of automation include the initial cost and effort of implementing automation systems, the need for specialized skills and knowledge to operate and maintain the systems, and the potential impact on jobs and the labor market. Automation can also raise ethical and social concerns, such as the potential for bias and discrimination in automated decision-making, and the need to ensure that automation is implemented in a responsible and transparent manner.

The future of automation is likely to involve the continued development and adoption of new technologies and systems, such as artificial intelligence and machine learning, that can automate a wider range of tasks and processes. There may also be an increased focus on the ethical and social implications of automation, and on developing frameworks and regulations to ensure that automation is implemented in a responsible and transparent manner. The future of automation may also involve greater collaboration between humans and machines, as well as the development of new roles and skills for workers to support and augment automation systems.