Four ways industrial automation will evolve

Industrial automation has continued evolving as machines become more connected and smarter while reducing maintenance costs for companies.

By Robotic Industries Association (RIA) August 27, 2019

Industrial automation traces its roots back to the 1970s when the original distributed control system (DCS) was developed. Once Dick Morley, a mechanical engineer, developed the first programmable logic controller (PLC), several startups released human interface software to help add innovative automation solutions to a wide range of industries.

Industrial automation hasn’t stopped evolving. New sensors, amplifiers, displays, controls, recorders, valves, actuators, and more are being released constantly. Many industrial automation manufacturers focus on niche applications, and most suppliers only recently have begun expanding products beyond their initial applications and local geographies.

Automation uses control systems to operate equipment such as machinery, networks, and navigation with little or no human involvement. Industrial automation is often accomplished by mechanical, hydraulic, and electronic systems. US car manufacturers have been early and heavy adopters of industrial robots, with General Motors being the first to establish an automation department.

Manufacturers use industrial robots and intelligent machines to care for various operations that require speed, stamina, and accuracy. Industrial automation can reduce energy usage, materials used, and labor waste. Industrial robots typically help perform long production runs for large manufacturers, but new capabilities may soon bring industrial automation to small and medium industries.

Four ways industrial automation will evolve

目前正在开发和部署的工业机器人将具有多种功能,因此一台机器可以用于多个不同的任务。工业自动化系统也将具备在没有人工帮助的情况下自主决策和工作的能力。这将使人类从事更有回报的工作,比以前更有效率和生产力。

1. Low maintenance

Manufacturers know downtime kills productivity, so they’re putting pressure on engineers to make sure robots of the future will require less maintenance. New industrial robots will need to be easy to deploy, operate, and maintain as the majority of employees using these robots may be lacking programming and engineering skills.

2. More intelligent

Breakthroughs in artificial intelligence will make robots smarter. Intelligent robots will be able to sense and predict changes and adjust on their own, and industrial robots will be able to solve more complex tasks without human input.

3. Highly connected

The concepts being developed by the Industry 4.0 revolution (referring to a new phase in Industrial Revolution that focuses on interconnectivity, machine learning, automation, and real-time data) include networked connections that will allow robots to collaborate, not only with humans, but with other industrial robots. Industrial automation will work with more synergy than ever before.

4. Human safety

Robots are already being used in environments and processes that are dangerous for humans, but with human-robot collaboration set to increase, how they work together will be improved. Even mobile industrial robots will be able to detect and predict human behavior to increase safety in the workplace.

This article originally appeared on theRobotics Online Blog. Robotic Industries Association (RIA) is a part of the Association for Advancing Automation (A3), a CFE Media content partner.

Original content can be found atwww.robotics.org.


Robotic Industries Association (RIA)