The Internet of Things (IoT) pushes Ethernet into new areas—production lines, hotel rooms, farm harvesters, or wing interiors—as process engineers, control system engineers, hotel designers, grid operators, and other business executives. When networked data is interrupted and powered, the number of devices that need to be connected will increase from thousands to millions. For network personnel, the next wave of challenges comes from deploying the line of business of the IoT system and will break traditional network processes and controls. Ultimately, the web team will need to learn how to help other teams drive the business forward. Who will use the Internet of Things? The IoT system will first enter many industrial sectors, such as manufacturing, retail and hospitality. In many cases, business stakeholders will drive the deployment of IoT systems and become more directly involved in the technology decision-making process. Recently, the physical realms of some industries have begun to enter the Internet of Things, such as manufacturing plants, warehouses, farms and substations. For example, manufacturing equipment vendors have introduced fully automated devices and networks based on Ethernet/IP. Ethernet/IP is based on the TCP/IP suite, which uses TCP to complete the message transmission of information, and uses UDP to complete the I/O message transmission. In addition to connecting equipment from different suppliers to the production line, product engineers can work with process/manufacturing engineers to modify the product during the production process. These advantages can be extended to the supply chain and the customer of the manufacturer, as all of these systems can be interconnected and delivered according to the real-time requirements of the production. Industrial automation and control system networks have moved away from Ethernet's proprietary communication protocols and vendor-specific communication protocols. This is determined by several factors, including the difficulty of finding support resources, site-specific controls, and interoperability issues. By using nanosensors, input/output devices (for example, light switches), and programmable automation controllers (PACs), plant managers, process engineers, and business owners can deploy, control, and report plant status from the other end, making multiple The system coordinates work to provide efficiency and product quality. Match energy supply to demand In the energy sector, we can adapt the input and output power of the grid to real-time information and control systems through renewable energy, distance-adjusted demand, networking and smart sensors. Ethernet provides the most robust, cost-effective, common platform that enables previously dispersed systems to share information. Power engineers are installing IP-enabled devices such as routers, switches, and notebooks in substations, power plants, customer locations, and the like to monitor and control energy from a central location in real time. The information technology system will provide power station personnel with control and protection mechanisms to enhance the reliability and efficiency of the grid. Moreover, for a grid that uses a large number of renewable generation resources, its operation and control will depend on the availability and implementation of these mechanisms. Other electricity that depends on weather conditions (wind, sun, rain, etc.) must be collected at specific locations and then transported to energy-poor areas via transmission lines. On the construction front, asset management companies and multi-property owners have increased their investment in smart buildings and see it as a heterogeneity with their competitors. Some of the more aggressive companies also offer commercial companies variable rental agreements that are priced based on the amount of resources used, as smart buildings are already able to provide this information to everyone. Municipal engineers and architects have accelerated the application of these technologies in building design to support this need. Network challenge Often it is easier for network personnel to take over a new task than to hand it over to others. Existing network teams have struggled to cope with changes in configuration requirements in the data center, and it is difficult for them to support users' mobile device network access. Commercial companies don't have the resources to design, deploy, manage, and upgrade their infrastructure because they support a new edge network with hundreds of devices growing from a few hundred to millions. Suggest Because technology has penetrated into core business processes, some infrastructure and operations personnel have put all their energy into protecting the network from non-technical users and protecting users from other users. They are not creating an environment that is inseparable from the network team, but they are isolated from the outside world – they are not only not valued by the business, infrastructure and operations teams, nor can they continue to innovate because they are already trapped For a variety of complex tasks. The current model is no longer applicable, it is not sustainable, but there is another way: · Network personnel must be clear: no team can do everything. Network organizations need to use some systems to help other organizations. It can start with network access control. Most infrastructure and operations personnel believe that human resources, legal, and business people should develop acceptable use policies that balance corporate culture, common sense, and business goals, and reduce corporate risk. Network personnel should not try to understand business goals and policies, but focus on building a network infrastructure that can accommodate business policies and signals through standard interfaces. · Network executives must establish good relationships with business stakeholders. This will ensure that they will get a seat at the first IoT discussion. This does not mean giving up control over the network, nor is it going to be designed and managed by the business people. Instead, the network team can develop and establish management and protection measures. · Network personnel should embrace the experience of learning from peripheral IT: Total Quality Management (TQM) is a method that emphasizes the continuous improvement of customer satisfaction by all employees. TQM managers gain the trust of their employees, encourage them to solve problems, and encourage cross-departmental collaboration. They monitor and adjust the process, but they don't try to control employees. Intelligent building systems can provide a computerized intelligent network of electronic devices designed to monitor and control mechanical, electrical, and lighting systems (louvers, lighting, heating, cooling, ventilation, and color changing windows) in buildings. Now it can efficiently and economically produce controllers and I/O controllers that run directly within Ethernet, supporting the benefits of Ethernet connectivity without the need for gateways, terminal servers or other hardware. The Ethernet TCP/IP function is located directly within the controller device, so users can connect to the main system backbone with an existing corporate network when needed. As a result, this can result in significant cost savings, improved data access, and simplified network management. -------------------------------------------------- ---------------------- Ethernet technology data set - Ethernet technology: Towards a new era of industrial materials 5mm Red Through-Hole LED(DIP LED) manufacturer from China.
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