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IIoT (Industrial Internet of Things)

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The Industrial Internet of Things (IIoT) refers to the interconnected sensors, instruments, and other devices networked together with computers' industrial applications, along with manufacturing and energy management. It's a component of the Internet of Things (IoT). The terms IIoT and IoT refer to proprietary, standalone networks and larger, global networks. Today, IIOT is mostly used in the context of Internet of Things applications outside of the consumer and enterprise IoT markets, as an umbrella term for applications and use cases across multiple industrial sectors. IIoT is used in industries such as manufacturing, monitoring, and supply chain management. Their goal is to provide more accurate data to enable machine-to-machine automation that is accurate and secure.

What are IoT and IIoT?

    IoT

  • It generally relates to the concept of connecting various devices.
  • It focuses on physical devices, vehicle buildings and other home equipment
  • IoT devices share and collect data to provide greater control and automation of daily tasks.
  • It can be used at the consumer level.
  • IoT has a short life cycle

    IIoT

  • It specifically refers to the use of lot technology.
  • It focuses on industrial technology in areas such as manufacturing, transportation, and energy.
  • Data from sensors and connectivity are used by IIOT to maximise industrial processes and improve performance and safety.
  • IIOT connects critical machines and sensors at scale across industries.
  • It has a very long life span.

Features of IIoT

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  • Increase efficiency
  • The most important benefit of IIoT is that it allows manufacturers to automate and, hence, optimise their operating efficiency. Robotics and automated machinery can perform tasks more efficiently and accurately, boosting productivity and providing assistance to manufacturers in streamlining their operations. Furthermore, physical machinery can be linked to software through the use of sensors that continuously monitor performance. Manufacturers can gain a better understanding of the operational performance of individual pieces of equipment as well as entire fleets.

  • Reduce Errors
  • Human error refers to mistakes or lapses in judgment made by people. These errors can occur in any type of situation, including at work, at home, or while driving. Manufacturers can capture almost every aspect of their operations due to (IIoT). Manufacturers can lower the biggest risk associated with manual workers, human error, by reducing manual mechanisms and entries. This goes beyond operational and production errors. IIoT solutions can also lower the risk of data breaches and cyberattacks caused by human error.

  • Predictive Maintenance
  • All of these issues are resolved by predictive maintenance powered by IIoT solutions. Manufacturers can create a baseline by consistently monitoring machinery performance and function. This baseline, along with the corresponding data, provides organizations with the information they need to detect any problems before they occur.

  • Improve Safety
  • All of the data and sensors required for a fully functional IIoT manufacturing operation help to improve workplace safety. Smart manufacturing is evolving into smart security as all IIoT sensors collaborate to monitor workplace and employee safety. Workers on the floor, the line, and in distribution are all protected by integrated safety systems.

  • Reduce Costs
  • IIoT solutions provide the tools they need to cut costs and increase revenue. Data-driven insights into operations, production, marketing, sales, and other areas can help businesses become more profitable. All of the aforementioned IIoT benefits, like predictive maintenance, fewer errors, improved quality control, and increased efficiencies, will increase a manufacturer's profits.

Use of IIoT in Future

    Manufacturing industry

    These are some of the future changes occurring in the manufacturing industry.

    • Edge computing
    • As the number of connected devices grows, manufacturers will need to process and analyse data closer to the source in order to reduce latency and improve real-time decision making.

    • 5G networks
    • 5G networks will enable real-time monitoring and control of manufacturing processes through faster data transfer and lower latency.

    • Industry 4.0
    • The Internet of Things (IoT) will play a critical role in the implementation of Industry 4.0, which aims to create smart factories that are fully connected, automated, and data-driven.

    • Smart supply
    • IIoT technology will be used to optimise the entire supply chain, from raw material sourcing to production and logistics.

    • Cyber security
    • As the number of connected devices increases, manufacturers must ensure the security of their networks and devices in order to protect themselves from cyber threats.

    • Remote surveillance
    • IIoT technology will allow for remote monitoring and control of manufacturing processes, increasing efficiency and decreasing downtime.

    Home automation

    The future of IoT in home automation is expected to be characterised by increased connectivity and automation of a wide range of devices and systems. The following are some of the key trends that are likely to shape the future of IoT in home automation.

    • Smart homes
    • Internet of Things (IoT) technology will be used to connect and automate a wide range of home devices and systems, including lighting, heating, security, and appliances.

    • 5G networks
    • 5G networks will enable real-time monitoring and control of manufacturing processes through faster data transfer and lower latency.

    • Industry 4.0
    • The Internet of Things (IoT) will play a critical role in the implementation of Industry 4.0, which aims to create smart factories that are fully connected, automated, and data-driven.

    • Smart supply
    • IIoT technology will be used to optimise the entire supply chain, from raw material sourcing to production and logistics.

    • Cyber security
    • As the number of connected devices increases, manufacturers must ensure the security of their networks and devices in order to protect themselves from cyber threats.

    • Remote surveillance
    • IIoT technology will allow for remote monitoring and control of manufacturing processes, increasing efficiency and decreasing downtime.

    3.Industrial automation

    Increased connectivity, automation, and data analysis are expected to characterise the future of IoT in factory automation. The following are a few major trends that will most likely shape the future of IoT in factory automation.

    • Industry 4.0
    • Aims to create smart factories that are fully connected, automated, and data-driven.

    • Robota
    • Robots will be used to automate repetitive tasks, increasing efficiency and decreasing the possibility of human error.

    • Human-machine transaction
    • interaction between human operators and machines, which will improve the efficiency of manufacturing operations.

    • 5G networks
    • 5G networks will allow real-time control and monitoring of manufacturing processes through faster data transfer.

    4. Office automation

    It has the potential to change office automation by connecting a diverse range of devices and systems, enabling greater automation, data collection, and analysis. This can lead to increased efficiency, cost savings, and better-informed decisions. Smart lighting and temperature control, automated inventory management, and real-time monitoring of office equipment are just a few examples of how IoT could be used in office automation. Furthermore, combining IoT with other technologies like artificial intelligence and machine learning could improve the capabilities of office automation systems.

    5. School automation

    The Industrial Internet of Things (IIoT) has the ability to totally change school automation by connecting devices, systems, and people in different manners. The future of IoT in school automation is bright, and it has the potential to improve the learning experience for students and make schools more efficient and safe. Some potential IoT applications in schools include:

    • Smart classrooms
    • Devices like smart boards, cameras, and sensors can be used to create a professional learning experience for students

    • Robota
    • Robots will be used to automate repetitive tasks, increasing efficiency and decreasing the possibility of human error.

    • Human-machine transaction
    • interaction between human operators and machines, which will improve the efficiency of manufacturing operations.

    • 5G networks
    • 5G networks will allow real-time control and monitoring of manufacturing processes through faster data transfer.

CONCLUSION

Overall, the industrial internet of things (IIoT) has the potential to revolutionize the way we approach manufacturing and production. By connecting machines, devices, and systems through the internet, IIoT allows for real-time monitoring and control of industrial processes, leading to increased efficiency and productivity. However, implementing IIoT also comes with challenges, such as security concerns and the need for new infrastructure and technologies. Also, many organizations are developing IIoT to optimize their operations and gain valuable insights into their business. Progbiz is also a kind of software development company in Kerala, India that provides IIoT services. We hope this article has given you some insight into what IIoT technology is and how it can benefit your company.

Thank you for reading!!

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Swagath N

Author

Comments:

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Steffy

January , 30, 2023

Thanks for sharing this informative blog

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Swagath N

January , 30, 2023

Thank you!

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