With the development of cities, resources and spaces are becoming increasingly tight. how to use the limited resources to provide as many services as possible for the public is a problem that urban administrations need to think deeply. Each business system is no longer an island of data. From the
top-level design, various infrastructure data are integrated and shared. The data value of each business system is integrated through AI and big data analysis and that value will improve city management and the emergency response capability. With advanced technologies such as wireless communication and Internet of Things awareness, the city's infrastructure operation can be perceived thus improving the operational reliability of infrastructure, achieving intelligent maintenance of facilities, and reducing maintenance costs. Through digital technology, BIM and other technical means, city management could be realized in one data map. and the data collected by each infrastructure is visually displayed in a to provide clear management supervision means for city administrations. A bottleneck in the development of smart cities is the information island effect. The data can not be disclosed and shared between different businesses and industries in the smart city system. This results in the separation of data and the inability to generate deep value of data. Regarding this issue, the administration has been consciously aware of and began to seek solutions. Now they are seeking data sharing, and the exchange of data between businesses and industries has become a trend. The existing smart city system does not fully consider the sharing of data and the interoperability of services at the beginning of the construction. Generally, the independent construction mode of each business or industry is adopted, and there is a lack of uniform specifications and requirements in terms of data interfaces and formats. Therefore there is an urgent need to be able to open up data between different business or industries to achieve a data bus that is fused and shared. With the development of new energy vehicles, 5G/4G communication technology, intelligent lighting, AI/big data analysis and other technologies in recent years, traditional street lamps have become the best carrier that smartly served for users in cities. The current development trend is to integrate a variety of devices into this widely-distributed infrastructure. As the street lamp is widely distributed in cities, it can provide a solid foundation for various intelligent services at low cost thus becomes a better choice for smart city development and transformation. IoT The introduction of IoT communication technology brings the ability to sense anytime and anywhere, and accurately grasp the surrounding state information; Edge Computing Strengthen the edge computing capability of the front end equipment and pre-performance high-performance computing to realize on-site data service processing; Data Bus The data bus lays a foundation for the integration and Sharing of data, and opens up data islands to achieve double the value of data; Big Data Analysis& Data Visualization Visualize the city's operational status through big data analysis and data visualization technology;; AI HANDEL ALL EMERGENCIES The intelligent light pole integrates an alarm button to facilitate the public to call the police at the first time. At the same time, the monitoring image of the incident area is played together, so that the higher level public security department can understand the scene at the first time, supplement the face recognition technology at the later stage, identify the person appearing at the crime scene, and locate the case location, site situation, personnel information and other data. Efficient integration to provide accurate information for subsequent handling of the case. “Available” information push The charging pile can actively push the“Available” information to the city Internet of Things data bus, and then the data bus will uniformly release the “Available” charging pile position information, thereby realizing the full sharing and use of resources. Charging status visualization The data such as voltage, current, power consumption, and energy consumption during the charging process are immediately detected and reported, so that the remote maintenance manager can intuitively grasp the running status of each charging post. Convenient payment The user can charge the two-dimensional code of the pile display through the smart light pole to perform the payment operation, and enjoy the convenience of the present. Plug and charge According to the user's habits, the electric vehicle can be connected to the grid for charging at any time, regardless of the operating characteristics of the grid. High density deployment The distance between the lamp poles is generally 20~30 meters, and the distance between the 5G micro base stations is 100~200 meters. Each pole is integrated with a 5G microstation, and the three major carrier base stations do not interfere with each other. Simple deployment 5G The power supply system of the smart light pole can solve the problem of difficult cable deployment outside the 5G micro base station construction.。 Save costs The smart light pole is used as the 5G base station carrier to avoid repeated investment of urban infrastructure funds, reduce equipment maintenance costs, and fully reflect the application value of “one-shot multi-purpose” of smart light poles. Harmonious management As a common municipal facility, the smart light pole has a harmonious appearance and can reduce the problems caused by electromagnetic radiation .
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