The following program information comes from partners

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IOC solution(integrated with IoT real-time data)

Introduction
The overall architecture is divided into data layer, big data visualization platform layer and application layer. The relationship between the responsibilities and layers of the specific layers is as follows: (1)Data layer The data layer mainly acquires data from application modules, data sharing exchange platforms, and original application systems. (2)Visual platform layer The Smart City Operation Center manages the city's economy, transportation, security, people's livelihood, government affairs and other business, population, housing, legal person and other data and information. For such massive data display, the city cannot be operated by traditional two-dimensional charts. The indicators and monitoring data are presented to decision makers in an intuitive and clear manner. The static and dynamic data in the city's operational signs must be visually presented to government decision makers, industry users and the public, relying on the big data visualization platform to realize the smart operation of the city. The big data visualization platform layer provides strong support for the visual presentation of the system. It is responsible for integrating the thematic data of the decision analysis, the departmental business data of the data sharing exchange platform, and other application system data in a certain way, and then transforming through the big data visualization engine. For intuitive visual scene display and data chart display, and support the interaction between application layer indicator instrument and business scene, it needs to support large scene rendering and macro-micro scene integrated display, which can seamlessly switch from macro scene to micro scene, and achieve macroscopic The virtual and real switching of scenes and micro scenes meets the presentation requirements of different perspectives and different indicators. In addition, it is necessary to support the integration of above-ground and underground displays, and to demonstrate the hidden engineering capabilities of the city. (3)Application layer The application layer mainly provides layout design, data configuration and effect configuration for the display of the dashboard, and can realize the presentation of the data indicator instrument, the visual presentation of the data index, the visual drilling of the data index, and the linkage of the instrument and the scene according to the design and related configuration. analysis. The application layer function can be used according to the operation requirements of the smart city to carry out the overall situation, economic situation, traffic situation, decision analysis and economic related topics, decision analysis and analysis of traffic related topics, and intuitively present to relevant decision makers in the form of instrument and 3D visualization.
The overall architecture is divided into data layer, big data visualization platform layer and application layer. The relationship between the responsibilities and layers of the specific layers is as follows: (1)Data layer The data layer mainly acquires data from application modules, data sharing exchange platforms, and original application systems. (2)Visual platform layer The Smart City Operation Center manages the city's economy, transportation, security, people's livelihood, government affairs and other business, population, housing, legal person and other data and information. For such massive data display, the city cannot be operated by traditional two-dimensional charts. The indicators and monitoring data are presented to decision makers in an intuitive and clear manner. The static and dynamic data in the city's operational signs must be visually presented to government decision makers, industry users and the public, relying on the big data visualization platform to realize the smart operation of the city. The big data visualization platform layer provides strong support for the visual presentation of the system. It is responsible for integrating the thematic data of the decision analysis, the departmental business data of the data sharing exchange platform, and other application system data in a certain way, and then transforming through the big data visualization engine. For intuitive visual scene display and data chart display, and support the interaction between application layer indicator instrument and business scene, it needs to support large scene rendering and macro-micro scene integrated display, which can seamlessly switch from macro scene to micro scene, and achieve macroscopic The virtual and real switching of scenes and micro scenes meets the presentation requirements of different perspectives and different indicators. In addition, it is necessary to support the integration of above-ground and underground displays, and to demonstrate the hidden engineering capabilities of the city. (3)Application layer The application layer mainly provides layout design, data configuration and effect configuration for the display of the dashboard, and can realize the presentation of the data indicator instrument, the visual presentation of the data index, the visual drilling of the data index, and the linkage of the instrument and the scene according to the design and related configuration. analysis. The application layer function can be used according to the operation requirements of the smart city to carry out the overall situation, economic situation, traffic situation, decision analysis and economic related topics, decision analysis and analysis of traffic related topics, and intuitively present to relevant decision makers in the form of instrument and 3D visualization.
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Partner Product List
Product Name Function Description
RAY-BDV3.0 big data visualization platform large scene rendering and macro-micro display
Huawei Product List
Product Category Product Sub-Category Product Series
Cloud Computing & Big Data FusionInsight Big Data Analytics Platform FusionInsight Big Data Platform