Industrial Internet of Things

Industrial Internet of Things

Industrial Internet of Things

The Industrial Internet of Things (IIoT) is the collection of sensors, instruments and autonomous devices connected through the internet to industrial applications. This network makes it possible to gather data, carry out analyses and optimize production, increasing the efficiency and reducing the costs of the manufacturing process and the provision of services. Industrial applications are complete technological ecosystems that connect devices and with the people who manage the processes in assembly lines, logistics, and large-scale distribution.

The difference between the Internet of Things (IoT) and its industrial version (IIoT) is that while IoT focuses on services for consumers, IIoT focuses on increasing safety and efficiency at production sites. For example, consumer solutions have focused on smart devices for the home, from virtual assistants to temperature sensors or security systems, or for people, such as wearables that monitor health.

You May Question If IIoT  Certification Is Worth It?

  IIoT builds future industries which are capable of multitasking, flexible, and precise. Accessible from anywhere in the world, these industries will be the most efficient among others. Various technologies brought into contact using IIoT have made way for many technical miracles.  Industry 4.0 concerns the transformation of industrial processes through the integration of modern technologies such as sensors, communication, and computational processing. Technologies such as Cyber-Physical Systems (CPS), Internet of Things (IoT), Cloud Computing, Machine Learning, and Data Analytics are considered to be the different drivers necessary for the transformation. Industrial Internet of Things (IIoT) is an application of IoT in industries to modify the various existing industrial systems. IIoT links the automation system with enterprise, planning and product lifecycle.

Course Description

Real-life use cases of IIOT:

Aircraft engine performance and maintenance enhancement at Rolls-Royce

Airport case: monitoring environmental conditions in Santiago de Chile airport

Automating telemedicine around the globe

Connected and smart printing presses at Heidelberg

Daimler Trucks North America upgrades plant to take advantage of IoT

Detecting road modality and occupancy patterns to enhance urban planning in Dordrecht Smart City

Digital transformation with a smart grid transformation at BC Hydro in British Columbia

ELM Energy: an innovative microgrid control solution

Energy and remote monitoring in Nigeria with a smart solar system

Fuel oil dealers gain efficiency thanks to IoT


The applications of the Internet of Things in industry are varied, but below we review some of the most relevant:

  Use of autonomous vehicles

The transport of components to the plant or products to the warehouse can be done by autonomous vehicles that are able to move from one side of the factory to the other by detecting obstacles.

  Optimization of machine performance

An inactive machine represents a loss of revenue. Thanks to sensors and data processing, it is possible to optimize machine utilization time inside a manufacturing plant.

  Reduction of human errors

Human operators will continue to be essential for many tasks, but the tools they use will be connected to the system to save time and avoid errors.

  Improvement in logistics and distribution

Stored products incorporate sensors that provide real-time data on their location and even on their temperature and surrounding conditions which will be particularly useful during, for example, the distribution of the COVID-19 vaccine.

  Decrease in the number of accidents

Wearables, such as goggles, bracelets, and gloves, allow data to be collected from the operator wearing them. Examples of this data range from their location or proximity to machines to their pulse, temperature, and blood pressure, thereby reducing the possibility of accidents.

What is IIoT? Who is IIoT Specialist?

The Industrial Internet of Things (IIoT) is the collection of sensors, instruments and autonomous devices connected through the internet to industrial applications. This network makes it possible to gather data, carry out analyses and optimize production, increasing the efficiency and reducing the costs of the manufacturing process and the provision of services and the person who does these work is IIOT specialist.

What Are The Course Objectives?

To provide students with a good depth of knowledge of Designing Industrial IOT Systems for various applications.

Knowledge of the design and analysis of Industry 4.0 Systems .

While the promise of the Industrial Internet of Things (IIoT) brings many new business prospects, it also presents significant challenges ranging from technology architectural choices to security concerns.

Students acquire upcoming Industrial IoT: Roadmap to the Connected World Course offers important insights on overcoming the challenges and thrive in this exciting space.

What Skills Will You Learn?

Knowledge of theory and practice related to Industrial IoT Systems.

Ability to identify, formulate and solve engineering problems by using Industrial IoT.

Ability to implement real field problems by gaining knowledge of Industrial applications with IoT capability.

Discover key IIoT concepts including identification, sensors, localization, wireless protocols, data storage and security

Explore IoT technologies, architectures, standards, and regulation

At the end of the program, students will be able to understand how to develop and implement their own IoT technologies, solutions, and applications.

Who Should Take This Course?

Technology professionals looking to upgrade their skills in cutting-edge technologies

Mid-career professionals and functional managers handling technology implementation of projects in Cloud Computing, Blockchain, and Internet of Things (IoT)

Recent Computer Science graduates who want to continue learning in the field of technology and prepare themselves for their aspirational roles in technology companies

Industrialist interested in automation and remote control.

Professionals interested in Industry 4.0

Software developers

Frequently Asked Questions

What are the requirements to take Introduction to IIoT basics?

There are no prerequisites for Introduction to IIoT Basics.  Anyone with a keen interest in IIoT is welcome to take the course.

How do beginners learn Introduction to IIoT fundamentals?

Learners who want to learn Introduction to IIoT, can start with Introduction to IIoT and origin and impact of IIoT. Also, they can take this Introduction to IIoT basics course to gain a solid overview of IIoT.

How long does it take to learn Introduction to IIoT Basics?

This Introduction to IIoT training course consists of 2 hours of carefully curated video content that helps you understand IoT and its nuances. The time to master the material depends on how quickly you grasp and understand the concepts.

What should I learn first in IIoT basics?

It is recommended that you always start with an introduction to IIoT and how IIoT has impacted today’s world.

Is IIoT fundamentals easy to learn?

The videos that you find in the course are created by mentors who are industry leaders with vast experience in the IIoT field. Also, they are aware of the needs of different learners, so they have structured the course to make it easy for you to learn and understand IIoT.

What are the basics in the IIoT course?

The basics covered in this Introduction to IIoT course includes concepts of IIoT, its origin, impact and methodologies, and how it can blend with the current business applications to improve results.

What is IIoT used for?

IoT or Internet of Things is basically a platform where physical embedded devices are connected to the internet so that they can interact with the internet and exchange data with each other. IoT devices are used in offices, homes, schools, businesses, organizations, and even vehicles and buildings.

Why is IIoT so popular?

Since IoT provides physical devices a platform where they can interact with the internet, the past few years have seen an exponential rise in the popularity of the technology. 

Can I complete this Introduction to IIoT course in 90 days?

Yes, you can complete this Introduction to IIoT training course within 90 days.

What are my next best learning options after completing this Introduction to IIoT program?

After completing this Introduction to IoT course, you can opt for any of the Software Development courses and Certification Training provided by chools

What are the career opportunities in IIoT?

Here are some careers for IoT professionals:

  • IoT Embedded Engineer
  • IoT Consultant
  • IoT Architect
  • IoT Application Engineer

What is a self-paced course/program with mentoring services?

Self-paced courses/programs with mentoring services enable you to work at your own pace, however you also have access to a Subject Matter Expert and mentor. Depending on your payment plan, your course Subject Matter Expert and mentor are available via the discussion space, emails, and 1-to-1 online meetings.

What types of learning resources will I have access to?

This will depend on the specific course/program you have chosen, however resources tend to include downloadable handouts, articles, virtual discussions, webinars, knowledge checks, and videos.

What is a virtual instructor-led course/program?

A virtual instructor-led course/program runs to a fixed schedule, starting and finishing on set dates. It is driven forward by your instructor and will include features such as live classes that are aired to a pre-defined schedule. Assignments will be due on set dates, and exams will also take place on set dates. Course materials may only become available at specific times as your course/program progresses, however sometimes materials are available from the start of the course/program.