Embedded Systems: A Giant Leap in Automation

Embedded Systems: A Giant Leap in Automation

We all know how necessity is defined as the mother of invention. Similarly, embedded systems were fuelled by the idea of adding pre-programmed applications within electronic gadgets. This ever-growing influence of the embedded system is what has driven the rise of automation. 

What Exactly is an Embedded System?

One of the best ways to define an embedded system is the perfect resonance between computer hardware and software. The hardware department generally comprises of the microprocessor or microcontroller for an embedded system. A typical embedded system consists of a UI, display, allocated memory and even input/output interfaces.

As for the software, an embedded system is written on low-level programming languages such as C, C++ and even Java. The codes are then generally complied to direct a specific function for the hardware. Such flexibility for the embedded systems is what provides them with the upper hand for automation. 

Types of Embedded Systems

Embedded systems can be briefly categorized into four different types: 

Stand-Alone Embedded Systems: 

As the name suggests, stand along embedded systems take inputs from the sensors, process them and provides with a desirable outcome. 

Real-Time Embedded System:

When an embedded system provides an output at a designated time frame, it can be termed as a real-time embedded system. 

Networked Embedded System:

One of the fastest-growing embedded systems. These types of systems are mainly associated with networking such as LAN, WAN and internet. 

Mobile Embedded System:

Embedded systems that are associated with movable devices under this category. 

Application of Embedded Systems in Automation

Embedded systems are vastly fragmented into different kinds of industries. Exploring the vast opportunity within, down below is a list of some of the applications of embedded systems in automation: 

Time-Sensitive Networking

Time Sensitive Networking provides the users with interoperability along with cross-vendor integration. TSN in actuality is an open standard network architecture. The idea behind the technology is to operative over a single ethernet network for real-time communication. It helps to create business processes optimized with the ability to access data in real-time. TNS can become an integral part of the industrial IoT. 

Advanced Manufacturing through Embedded Control

Embedded systems backed by automation can help industries reach towards an advanced manufacturing process. It enables companies with the production of materials with utmost perfection without the need for any human help. Further, it helps the company to work with high precision while keeping the quality in check. 

Remote Monitoring of Structural Health

Embedded systems packed with sensors can ensure the longevity of any physical structure. Implementing automation, along with the same, upgrade its usefulness to almost ten folds. Such a system can help in remote monitoring of structural health while suggesting necessary precautions if anything goes wrong. 

Wrapping Up

It is imperative to understand that industrial automation is not possible without the assistance of embedded systems. As time passes by and further evolution of technology occurs, we would be able to see further implement of embedded systems. 

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