The growth of industrial IoT is enabling M2M and industrial networks to operate in tandem with the wired industrial networks that have served the world for up to a century. Transforming large connecting networks into an information highway will provide the necessary foundation for remote process monitoring, remote access to factories, and the swift and seamless movement of data, rather than people, between factories.
In the following success stories, the concepts discussed in the article were used to develop and deploy industrial projects that rely on communications for control and connectivity with devices located in the field. See the links in the first paragraph for additional information and to download the white papers referenced below.
To improve the accuracy of highly-accurate sensors (such as a turntable), the sampling rate is reduced and the signals are processed on a conventional control block. The data is wirelessly switched to the control system. Contactless technology using the Profibus PA device profile (PA Profile) simplifies the integration of these modules in the field.
A visibly-reduced sampling rate of acquired data can help to improve the data transmission rates and reduce transmission times (time sensitive data). An industrial network enables M2M-IoT by using various standards (e.g. Modbus RTU Protocol, Zigbee, Bluetooth, LoRaWAN), and provides the necessary software and hardware so that sensors, meters and other devices can communicate seamlessly.
Let's take advantage of the high coverage and reliability of network infrastructure to easily add new sites and resources at a moment's notice. Enable multiple locations in one office and throughout an industrial plant, without the need to run fibre, copper or microwave cable to each location.
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