Production equipment in the industrial field did not have active networking capabilities in the past, resulting in production data, material consumption, and product tracking are all done manually, with low efficiency and many errors and omissions, and with the product iteration speed is getting faster and faster, which requires manufacturing companies to have strong agility (e.g., businessmen inserting orders for production, which can be adjusted at any time to adjust the production plan)
The role of the Internet of Things is to be able to access the production data of the equipment in real time through hardware technology (which was not possible before), and finally after big data analysis presented in the user's cell phone (for example, how much material is consumed, how much inventory is still available, and how much the production progress of each production line), once the customer adjusts the demand/insertion order, you can reasonably adjust the production plan through the real-time data obtained to achieve flexibility. The new system is a new way of doing things, and it's a new way of doing things.
The Industrial Internet of Things (IoT) consists of a large number of connected industrial systems that communicate with each other and coordinate data analysis and actions, helping to improve industrial efficiency and benefit society as a whole. Industrial-scale systems that bridge the digital and physical worlds through sensors and actuators can solve more complex control problems. Currently, various systems are combining huge amounts of analog data, solutions, and hopefully more in-depth knowledge through information and analysis.