4 Strategies to understand the industrial IoT network

Posted by Rasika Joshi on July 18th, 2019

Networking technologies are huge in the industrial domain. Industrial IoT is developing rapidly, becoming more distributed and developing new capabilities. Gartner predicts 25 billion IoT devices by 2021, which will add immense scale to the situation.

There are various aspects of the IIoT system architects and network engineers need to take into consideration when designing successful industrial networking systems. These involve the choice of networking technologies, which has a wide range of scale in the industrial domain. What is needed is a structure for solutions architects to give guidance when architecting networks.

Understand the nature of Industrial networking Deployments:

Industrial networking is fully different than networking for enterprises or consumers. Application requirements for supporting networks are various and span many industry sectors, including transportation, manufacturing, utilities and healthcare. The technical demands for applications can vary from relaxed to highly demanding. Arrangement scenarios will also vary.

The physical surroundings found in mining vary tremendously compared to those found in agriculture. Operational factors to examine are if connected machinery will be moving, like with robots, or require to reorganize, such as with adaptable manufacturing cells. The lifecycle of deployments, which can be decades, must also be considered in a sustainable technology strategy.

Keep Tap on Constantly Evolving Technologies:

Industrial networking infrastructures and the technologies assisting them are constantly evolving. With the introduction of new IoT solutions and technologies, the network’s abilities also boost up. This enables assets like machines, sites and environments to attach to the enterprise processes enabling the various applications across many different industries.

Industrial networking technologies serve as the base for all IoT applications. There exists a wide range of options that include variants of field buses, industrial Ethernet and wireless standards like WiFi and IEEE 802.15.4. Cellular technologies, in particular, are rapidly evolving to help a variety of IoT use cases.

These implements to both 4G/LTE, such as NB-IoT for large-scale arrangements with relaxed requirements .5G is somewhat unique since it can support a various range of applications and placement scenarios within the same system. You should keep a tap on continuously evolving technologies so that you come to know how Industrial IoT is going to revolutionize broadly in almost all industries.

Recognize Successful IIoT Implementations:

The mining industry has been deploying wireless remote control and stimulation of vehicles. This creates a constant need to improve security and efficiency while decreasing staff. Automation and remotely monitored vehicles and machinery have helped enable this. Having a minimum environmental impact is another driver to run mines autonomously.

The networking technology for remotely managing machines often depends on an unlicensed spectrum and proprietary technology. Mining, however, requires more integrated and systematizeIoT solutions because the addition of machines often needs having to add more networking technology. As equipment and vehicles shift from one area to the next coverage area, connectivity must be adjacent, ensuring consistent handoffs. This means proper network planning is logical especially if it has to remain cost-effective.

Tap Ecosystems of Experts for Advice

Generally, IIoT networks permit machines and devices to connect directly to enterprise information systems and business processes that enhance productivity. Compact integrations of automation and information will see IIoT applications switch more toward the edge and cloud-based control services, which will enhance requests for network support.

Let’s take a closer look at one scenario:

Production Process Improvement:

Manufacturing and managing operations are systematically, and sometimes consistently, undertaking development or optimization during the lifecycle of the products being built. Often, process enhancement occurs, the more IoT sensors are required to support the operations. There also exists an increasing need for adaptable and rearrange production lines.

Most industrial operations have been placed for a long time, which requires new sensors to be provided to work with legacy infrastructure and machinery. This can be practiced with wireless communications. As wired solutions also are stiff and expensive to rearrange, adaptable manufacturing requirements also point to the use of wireless solutions instead of wired.

The aim is to distribute established and evolving best practices. This activity will largely help the growth and maturation of Industrial IoT adoption and operations across the globe. Internet of Things Course Training will help you to learn step by step all such IoT Concepts.