In order to keep the factory moving forward, the industry is beginning to focus on the idea of ​​using high-speed fiber optic connections to manufacturing facilities. Through fiber optic networks, remote manufacturing operations can be connected to improve production optimization and supply chain management...
Machine-to-machine (M2M) interconnection and the Internet of Things (IoT) have been sublimated into the most outposts of many strategic technology conversations.
Several companies in the industry are further improving their product design and component performance, and expect to establish a seamless and real-time communication process between devices. Corporate executives are also keen to discuss the information generated by continuous transmission and automated analysis machines, how to transform our lives, work, games, driving and shopping, and how to change our homes, offices, vehicles, shopping centers, supermarkets, Hospitals, gas stations, and the appearance of the place where they pass every day.
As M2M and IoT form a business and operational strategy that affects product design and forces companies to re-examine how to collect and effectively use supplier and customer data, one question that arises is how companies can match the promises of IoT. Speed, consistency and reliability, bringing together all internal plant and supply chain data? After all, the factory is the lifeblood that allows many companies to continue to operate, and any data bottleneck will cost a lot.
Many in the industry have begun to realize this and have contributed to a deeper dialogue around industrial IoT or IIoT.
In order to keep the factory moving forward, some conversations began with an eye on the idea of ​​using high-speed fiber-optic connections to manufacturing facilities. Through fiber optic networks, remote manufacturing operations can be connected, including production optimization and supply chain management.
Introducing high-speed networks into M2M communications and real-time monitoring in manufacturing plants is not a new topic. Advanced manufacturing and its need to monitor active systems have enabled high-speed networks, and the demand for massive amounts of data has taken this demand to new heights. In addition, manufacturers want the network to be not only a single facility, but often deployed in different production locations. This requires a new long-distance high-speed network.
Industrial data is increasing exponentially and will require high-speed networks for seamless, secure and reliable data transmission (Source: GE)
At the same time, the Industrial Internet Alliance (IIC) plays a leading role here. The organization, led by General Electric (GE) and supported by Cisco, Accenture and Bayshore Networks, has established a high-speed network test platform. This new fiber technology can achieve 100Gb per second, which is equivalent to downloading 6,000 high-resolution movies at the same time.
However, how to achieve 100Gbps high-speed M2M? According to the organization, 100Gbps capabilities can be extended to the edge of the wireless network, allowing test-time vendors to provide more data and analysis results to mobile users through advanced communication technologies. GE is currently installing the network at its Global Research Center; Cisco provides the infrastructure needed to extend the nationwide. Accenture and Bayshore Networks showcase high-speed network infrastructure applications for power generation.
According to Bayshore Networks, the test platform uses its IT/OT gateway filters to convert generator data into a standard analysis format for integration with third-party Accenture Insights Platform analysis. The gateway is responsible for ensuring that the data in motion is safely fed to the analytics platform.
Colin Parris, vice president of software research at GE, said: "GE's software research focuses on driving real-time interconnection between large-scale systems and developing advanced and complex control systems to improve product performance and efficiency." He also stressed, "These High-speed networks can accelerate data movement between industrial Internet products and services, as well as increase the amount of data. This capability will greatly accelerate the progress required in these areas, and cooperation with the IIC Alliance will help drive industry standards. ."
Whether high-speed fiber technology will become the industry standard for IIoT remains to be seen. However, no matter where the standards are ultimately settled, companies that want to remain competitive must strive to go beyond their existing advanced technology and automation. Integrating big data that reshapes product design, internal and external supply chain activities, and customer interactions will be a topic of discussion sooner or later.
How does M2M and IoT shape your manufacturing strategy? How do you plan to have the factory open a conversation in a language with massive data analysis?
Compile: Susan Hong
(Reference: A New Use for High-Speed ​​Fiber OpTIcs: ConnecTIng Smart Factories, by R. Colin Johnson)
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