A digital cloud system for urban and rural community governance, a control method, equipment and a terminal
By introducing big data, cloud computing, and artificial intelligence technologies into urban and rural community governance platforms, data collection, information transmission, resource sharing, and collaborative governance are achieved. This solves the problems of data security and inconsistent technical standards, improves governance efficiency and service quality, and enhances community participation and governance transparency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- SICHUAN JINRUAN TECHNOLOGY CO LTD
- Filing Date
- 2026-02-05
- Publication Date
- 2026-06-05
AI Technical Summary
Existing digital cloud platforms for urban and rural community governance suffer from data security risks, inconsistent technical standards, incomplete functions, lack of user experience optimization, shortage of technical personnel, and operational problems. These issues lead to difficulties in information sharing and system integration, high barriers to entry, poor user feedback, and low governance efficiency.
By employing big data, cloud computing, and artificial intelligence technologies, and collecting data in real time through IoT devices, modules for information transmission, resource sharing, service interaction, and collaborative governance are established to enable information exchange and resource sharing among governments, enterprises, social organizations, communities, and residents. This allows for the formulation of governance rules, the establishment of regulatory mechanisms, the provision of visualized data displays and online services, and the monitoring and evaluation of system operation.
It has improved the efficiency and quality of urban and rural community governance, optimized resource allocation, enhanced service quality, increased community participation and governance transparency, promoted community development and innovation, and ensured data security and system stability.
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Figure CN122155175A_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of digital governance technology for urban and rural communities, and particularly relates to a digital cloud system, control method, equipment and terminal for urban and rural community governance. Background Technology
[0002] Currently, the "Five-Community Linkage" digital cloud platform for urban and rural community governance is an integrated platform combining information technology and intelligent technologies, aiming to achieve digitalization, intelligentization, and standardization of urban and rural community management. However, this platform also has some technical shortcomings and problems, including the following aspects:
[0003] 1. Data security issues
[0004] Because the platform needs to collect and process large amounts of personal and sensitive information, there are data security risks. Various technical measures, such as data encryption and access control, are needed to ensure data security.
[0005] 2. Lack of unified technical standards
[0006] The construction and use of the platform suffers from inconsistent technical standards. For example, differences exist in software interfaces and data formats developed by different regions and manufacturers, leading to difficulties in information sharing and system integration.
[0007] 3. Some functions are incomplete.
[0008] The implementation of some functions in the existing digital cloud platform for urban and rural community governance is not yet perfect. For example, the real-time analysis of data, intelligent recommendation, and visualization display need further improvement.
[0009] 4. Lack of user experience optimization
[0010] The design and development of digital cloud platforms for urban and rural community governance lacked optimization of user experience, leading to high barriers to entry and poor user feedback. It is necessary to start from user needs, optimize interface design and functional processes, and improve user satisfaction.
[0011] 5. Shortage of technical personnel
[0012] Platform development and maintenance require professional technical personnel, but there is currently a shortage of such personnel, especially in rural areas, which poses certain difficulties for the construction and use of the platform.
[0013] 6. User experience issues
[0014] Digital cloud platforms for urban and rural community governance need to meet the needs of different users, such as residents, community workers, and government departments. If the user experience of the platform is poor, it may lead to problems such as user churn and low usage rate.
[0015] 7. Operational issues
[0016] Digital cloud platforms for urban and rural community governance require professional operation teams for management and maintenance. If the platform's operation is not standardized or professional enough, it may lead to problems such as a decline in service quality and a decrease in user satisfaction.
[0017] Although the "Five-Community Linkage" digital platform for urban and rural community governance is of great significance in urban and rural community governance, it also has a series of technical defects and problems. It is urgent to improve the platform's reliability, security and user experience through technological innovation and continuous optimization, so as to promote the digitalization process of urban and rural community governance.
[0018] Based on the above analysis, the problems and shortcomings of the existing technology are as follows:
[0019] (1) The existing digital cloud platform for urban and rural community governance with the “five-community linkage” has problems such as data security risks and inconsistent technical standards, which leads to difficulties in information sharing and system integration.
[0020] (2) Some functions of the existing “five-community linkage” digital cloud platform for urban and rural community governance are incomplete and lack user experience optimization, resulting in problems such as high usage threshold and poor user feedback.
[0021] (3) There is a shortage of technical personnel for the existing digital cloud platform for urban and rural community governance with the "five-party linkage" mechanism, especially in rural areas, which makes it difficult to build and use the platform.
[0022] (4) The existing digital cloud platform for urban and rural community governance with the “five-party linkage” may have problems such as unstable performance and slow processing speed when processing large-scale data, and the technical level needs to be further improved. Summary of the Invention
[0023] To address the problems existing in the prior art, this invention provides a digital cloud system, control method, equipment, and terminal for urban and rural community governance, and particularly relates to a digital cloud system, control method, equipment, and terminal for urban and rural community governance based on "five-community linkage".
[0024] The digital cloud system for urban and rural community governance based on the "five-party linkage" is a comprehensive platform that integrates data collection, processing, analysis, display and application, aiming to improve the efficiency and quality of urban and rural community governance.
[0025] This system enables the linkage of social entities, forming a collaborative governance network that achieves information sharing, resource sharing, and collaborative decision-making. It collects community governance-related data, including environmental data, population data, economic data, and social data, through various sensors, monitoring equipment, questionnaires, and other means.
[0026] It employs technologies such as big data, cloud computing, and artificial intelligence to process, analyze, and mine the collected data, extracting useful information to support decision-making. Through visualization technology, the processed data is displayed in the form of charts, maps, and reports, making it easier for users to understand the situation and trends of community governance. It provides a variety of application services, including community services, public safety, environmental protection, and economic development, to provide more convenient, efficient, and intelligent services for urban and rural community residents.
[0027] This invention is implemented as follows: a digital cloud system for urban and rural community governance, comprising:
[0028] The data acquisition module is used to collect urban and rural community data in real time through Internet of Things (IoT) and big data technologies.
[0029] The information transmission module is used to achieve information exchange between the government, enterprises, social organizations, communities and residents by establishing an information transmission mechanism;
[0030] The resource sharing module is used to enable resource sharing among governments, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental resource sharing;
[0031] The service interaction module is used to enable service interactions between the government, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental service interactions;
[0032] The collaborative governance module is used to achieve collaborative governance among governments, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental collaborative governance;
[0033] The function optimization module is used to establish a system operation monitoring and effect evaluation mechanism, regularly analyze and evaluate the system operation status, and optimize system functions through monitoring and analysis of system operation status.
[0034] Furthermore, the urban and rural community data in the data collection module includes infrastructure data, public service data, public security data, and environmental protection data of urban and rural communities.
[0035] Furthermore, information exchange within the information transmission module includes: the government releasing policies, regulations, and public service information through the digital cloud system for urban and rural community governance; enterprises releasing recruitment and training information; social organizations releasing volunteer service and donation information; and communities and residents releasing information on their needs and suggestions.
[0036] Furthermore, resource sharing in the resource sharing module includes: the government sharing public service resources through the digital cloud system for urban and rural community governance; enterprises sharing technology and talent resources; social organizations sharing volunteer services and donation resources; and communities and residents sharing idle goods and mutual aid service resources.
[0037] Furthermore, the service interaction module includes: the government providing convenient services and policy consultation services through the digital cloud system for urban and rural community governance; enterprises providing employment and training services; social organizations providing volunteer services and donation services; and communities and residents providing mutual assistance services and neighborhood watch services.
[0038] Furthermore, collaborative governance in the collaborative governance module includes: the government working with enterprises, social organizations, communities, and residents through the digital cloud system for urban and rural community governance to jointly formulate urban and rural community governance plans, jointly participate in the implementation of urban and rural community governance projects, and jointly evaluate the governance results of urban and rural communities.
[0039] Another objective of this invention is to provide a control method for an urban and rural community governance digital cloud system using the aforementioned system. The control method includes the following steps:
[0040] Step 1: The data acquisition module uses IoT and big data technologies to collect real-time data from urban and rural communities and integrate the relevant data to build a data resource library;
[0041] The data acquisition module utilizes IoT and big data technologies to collect real-time data from urban and rural communities and integrates relevant data to build a data resource database. The implementation process is as follows:
[0042] Deploy sensors and monitoring equipment: Deploy sensors and monitoring equipment, such as air quality monitors, trash can sensors, and street light monitors, in key locations in urban and rural communities to collect relevant data in real time.
[0043] Data transmission: The collected data is transmitted to the cloud server via IoT technology to ensure the real-time performance and accuracy of the data.
[0044] Data integration: Integrate the collected data, including data cleaning, deduplication, formatting, and other processes, to ensure data consistency and availability.
[0045] Data storage: The integrated data is stored in a data resource repository, including relational databases and non-relational databases, to ensure data security and reliability.
[0046] Data analysis: Utilizing big data technology to analyze and mine data in data resource repositories, extracting useful information to support urban and rural community governance.
[0047] By collecting and integrating real-time data from urban and rural communities to build a data resource library, data support can be provided for urban and rural community governance. This helps governments and community managers better understand the situation and problems in communities, take timely measures to solve problems, and improve the efficiency and quality of urban and rural community governance. At the same time, this function can also provide more precise services to businesses and individuals, such as health advice based on air quality data and travel suggestions based on traffic data, thereby improving the quality of life for urban and rural residents.
[0048] Step two: The information transmission module establishes an information transmission mechanism to achieve information exchange between the government, enterprises, social organizations, communities, and residents;
[0049] The information transmission module establishes an information transmission mechanism to facilitate information exchange among the government, enterprises, social organizations, communities, and residents. The process is as follows:
[0050] Establish an information platform: Build an information platform, including a website, APP, WeChat official account, etc., to provide channels for governments, enterprises, social organizations, communities and residents to release and receive information.
[0051] Information dissemination: Governments, enterprises, social organizations, communities, etc. can use information platforms to disseminate relevant information, such as policies and regulations, announcements and notices, community activities, etc.
[0052] Information reception: Residents can receive relevant information through the information platform, such as policies and regulations, community activities, and public services.
[0053] Information feedback: Residents can use the information platform to provide feedback on problems and suggestions to the government and community, and the government and community can respond and resolve the problems in a timely manner.
[0054] Information integration: The information platform can integrate information released by the government, enterprises, social organizations, communities and residents to form an information database, making it convenient for users to search and use.
[0055] By establishing an information transmission mechanism to facilitate information exchange among the government, businesses, social organizations, communities, and residents, information and resource sharing can be promoted, transparency and openness of information can be improved, and the credibility and image of the government and communities can be enhanced. At the same time, this function can also provide more precise services to businesses and individuals, such as social services based on community activity information and life services based on public service information, thereby improving the quality of life for urban and rural residents.
[0056] Step 3: Utilize the resource sharing module to achieve resource sharing among the government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental resource sharing;
[0057] The resource-sharing module enables resource sharing among governments, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental resource sharing. The specific implementation method is as follows:
[0058] Establish a resource-sharing platform: Governments, enterprises, social organizations, communities, and residents can publish their resource information on this platform, including resources such as materials, human resources, and technology.
[0059] Design a resource sharing module: On the resource sharing platform, design a resource sharing module to realize resource sharing and allocation. This module can automatically match and allocate resources based on resource demand and supply.
[0060] Establish resource sharing rules: To ensure fairness, impartiality, and efficiency in resource sharing, it is necessary to establish resource sharing rules. These rules should specify the scope of resource use, the duration of use, the method of use, and the procedures and standards for resource allocation.
[0061] Strengthen information security: The resource-sharing platform involves a large amount of sensitive information, necessitating enhanced information security measures. Encryption technologies and identity authentication should be employed to ensure the security and reliability of the information.
[0062] Establish a regulatory mechanism: To ensure the legality and standardization of resource sharing, a regulatory mechanism is needed. The government can set up a dedicated regulatory agency to supervise and manage resource sharing platforms, ensuring the legality and standardization of resource sharing.
[0063] Step four: Utilize the service interaction module to enable service interactions between the government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental service interactions;
[0064] The service interaction module enables service interactions between government, businesses, social organizations, communities, and residents, as well as cross-regional and cross-departmental service interactions. The specific implementation method is as follows:
[0065] Establish a service interaction platform: Governments, enterprises, social organizations, communities and residents can publish their service information on this platform, including government services, business services, social services and other services.
[0066] Design a service interaction module: On the service interaction platform, design a service interaction module to enable service interaction and collaboration. This module can automatically match services based on service demand and supply, and facilitate collaboration.
[0067] Establish service interaction rules: To ensure fairness, impartiality, and efficiency in service interactions, it is necessary to establish service interaction rules. These rules should specify the scope, duration, and methods of service, as well as the processes and standards for service collaboration.
[0068] Strengthen information security: The service interaction platform involves a large amount of sensitive information, requiring enhanced information security measures. Encryption technology, identity authentication, and other measures should be adopted to ensure the security and reliability of the information.
[0069] Establish a regulatory mechanism: To ensure the legality and standardization of service interactions, a regulatory mechanism is needed. The government can set up a dedicated regulatory body to supervise and manage service interaction platforms, ensuring the legality and standardization of service interactions.
[0070] Step 5: Utilize the collaborative governance module to achieve collaborative governance among government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental collaborative governance;
[0071] The collaborative governance module enables collaborative governance among governments, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental collaborative governance. The specific implementation method is as follows:
[0072] Establish a collaborative governance platform: Governments, businesses, social organizations, communities, and residents can publish their own governance information on this platform, including information on environmental governance, safety governance, and social governance.
[0073] Design a collaborative governance module: On the collaborative governance platform, design a collaborative governance module to achieve collaborative governance. This module can automatically match resources and conduct collaborative governance based on governance needs and supply conditions.
[0074] Establish collaborative governance rules: To ensure fairness, impartiality, and efficiency in collaborative governance, it is necessary to establish collaborative governance rules. These rules should define the scope, timeframe, and methods of governance, as well as the processes and standards for collaborative governance.
[0075] Strengthen information security: The collaborative governance platform involves a large amount of sensitive information, necessitating enhanced information security measures. Encryption technologies and identity authentication should be employed to ensure the security and reliability of the information.
[0076] Establish a regulatory mechanism: To ensure the legality and standardization of collaborative governance, a regulatory mechanism is needed. The government can set up a dedicated regulatory agency to supervise and manage collaborative governance platforms, ensuring their legality and standardization.
[0077] Step Six: The function optimization module establishes a system operation monitoring and effect evaluation mechanism to analyze and evaluate the system operation status, and achieves system function optimization through the monitoring and analysis of the system operation status.
[0078] The function optimization module can establish a system operation monitoring and effect evaluation mechanism to analyze and evaluate the system's operation, and achieve system function optimization through monitoring and analysis of system operation. The specific implementation method is as follows:
[0079] Establish a system operation monitoring mechanism: By establishing a system operation monitoring mechanism, the system's operation status can be monitored in real time, including indicators such as system stability, response speed, and resource utilization. Monitoring software, log analysis tools, and other technical means can be used to monitor and analyze the system.
[0080] Establish an effectiveness evaluation mechanism: By establishing an effectiveness evaluation mechanism, the system's functions and effects can be assessed, including indicators such as user satisfaction, system performance, and functional completeness. Methods such as questionnaires, user feedback, and performance testing can be used to evaluate and analyze the system.
[0081] Analysis and evaluation results: By analyzing the system's operation and performance evaluation results, problems and shortcomings can be identified, leading to functional optimization. Data mining, machine learning, and other techniques can be used to analyze and extract insights from the evaluation results.
[0082] Implement functional optimization: Based on the analysis and evaluation results, optimize the system's functions. This can be done through software development, system configuration, and other methods to optimize and improve the system, thereby enhancing its performance and functional integrity.
[0083] Continuous monitoring and evaluation: Establish a continuous system operation monitoring and effect evaluation mechanism to continuously monitor and evaluate the system, promptly identify problems and deficiencies, and then optimize functions to improve system performance and functional integrity.
[0084] Another object of the present invention is to provide a computer device, the computer device including a memory and a processor, the memory storing a computer program, and when the computer program is executed by the processor, causing the processor to perform the steps of the control method of the digital cloud system for urban and rural community governance.
[0085] Another object of the present invention is to provide a computer-readable storage medium storing a computer program, which, when executed by a processor, causes the processor to perform the steps of the control method for the digital cloud system for urban and rural community governance.
[0086] Another objective of this invention is to provide an information data processing terminal for implementing the aforementioned digital cloud system for urban and rural community governance.
[0087] Based on the above technical solutions and the technical problems solved, the advantages and positive effects of the technical solution to be protected by this invention are as follows:
[0088] First, the construction of a digital system for urban and rural community governance based on the "five-party linkage" model is an inevitable trend in the development of the times, reflecting the digitalization, intelligentization, and standardization of urban and rural community governance. The digital cloud system for urban and rural community governance provided by this invention can effectively improve the efficiency and quality of urban and rural community governance, providing better services and convenience for urban and rural residents. It has the following advantages:
[0089] 1. Improve governance efficiency
[0090] Digital systems can integrate and share information across all aspects and departments of urban and rural community governance, enabling rapid information transmission and processing, thereby improving the efficiency of urban and rural community governance.
[0091] 2. Optimize resource allocation
[0092] Digital systems can enable unified allocation and management of urban and rural community governance resources, thereby avoiding resource waste and duplication of investment, optimizing resource allocation, and improving resource utilization efficiency.
[0093] 3. Improve service quality
[0094] Digital systems can provide urban and rural residents with more convenient, efficient, and personalized services, such as online consultation, appointment services, and information disclosure, thereby improving service quality.
[0095] 4. Promote community development
[0096] Digital systems can improve the standardization of urban and rural community governance, promote community development and construction, and provide urban and rural residents with a better living environment and community services.
[0097] 5. Improve governance transparency
[0098] Digital systems can strengthen the supervision and management of urban and rural community governance, improve the transparency and fairness of governance, and promote social trust and stability.
[0099] In summary, the construction of the digital system for urban and rural community governance based on the "five-party linkage" is an inevitable trend in promoting the modernization of urban and rural community governance. It has advantages in many aspects, such as improving governance efficiency, optimizing resource allocation, improving service quality, promoting community development, and increasing governance transparency.
[0100] This invention is based on a digital cloud system for urban and rural community governance, which integrates five sectors: government, enterprises, social organizations, community residents, and experts and scholars. Through the joint participation of these stakeholders, and utilizing modern information technology, it aims to achieve digitalization, intelligentization, and refinement of urban and rural community governance, addressing the following issues and achieving corresponding results:
[0101] 1. Improve community governance efficiency: Through the construction of digital systems, real-time sharing of various community governance information can be achieved, improving the collaborative efficiency of the government, enterprises, and social organizations, and reducing decision-making costs.
[0102] 2. Optimize resource allocation: Digital systems can enable refined management of community resources, which helps to optimize resource allocation and improve the quality of community services.
[0103] 3. Enhance community participation: Through digital systems, residents can more easily participate in community governance, offer suggestions and opinions, and enhance community cohesion.
[0104] 4. Improve community governance: Digital systems can provide a wealth of data support for community governance, which helps to identify, analyze, and solve problems, thereby improving the level of community governance.
[0105] 5. Strengthen social oversight: Digital systems can make the community governance process more transparent, which helps to strengthen social oversight and improve the credibility of community governance.
[0106] 6. Promote innovative development: Digital systems can provide new ideas and methods for community governance, and promote innovative development of urban and rural community governance.
[0107] 7. Improve resident satisfaction: By improving the efficiency of community governance, optimizing resource allocation, and enhancing community participation, it is possible to improve residents' satisfaction with community governance.
[0108] In summary, the digital system for urban and rural community governance based on the "five-party linkage" can effectively solve many problems in urban and rural community governance, improve governance effectiveness, and promote harmonious and stable community development.
[0109] The digital cloud system for urban and rural community governance based on the "five-party linkage" approach has the following technical advantages:
[0110] 1. Data integration capabilities
[0111] Digital systems can integrate data resources from five major social entities: government, enterprises, social organizations, community residents, and experts and scholars, to achieve data sharing and interconnection, and provide comprehensive and accurate data support for urban and rural community governance.
[0112] 2. Information technology support
[0113] Digital systems utilize advanced technologies such as cloud computing, big data, and the Internet of Things to provide information support for urban and rural community governance, thereby improving governance efficiency and effectiveness.
[0114] 3. Intelligent Analysis and Decision Making
[0115] The digital system has intelligent analysis and decision support functions, and can perform in-depth mining and analysis based on massive amounts of data to provide scientific and reasonable decision-making suggestions for government departments and community managers.
[0116] 4. Service Convenience
[0117] Digital systems can provide convenient online services, such as government services, community services, and public services, making it easier for residents to access information and handle business, thereby improving resident satisfaction.
[0118] 5. Social Participation
[0119] Digital systems can effectively guide and inspire participation from all sectors of society in urban and rural community governance, forming a governance pattern in which the government, enterprises, social organizations, residents, and experts and scholars participate together, thereby improving public recognition and social effectiveness of governance.
[0120] 6. Security
[0121] The digital system has strict data security measures to ensure the security, privacy and compliance of data, providing reliable technical support for urban and rural community governance.
[0122] 7. Sustainable Development
[0123] Digital systems have good scalability and sustainability, enabling them to adapt to the continuous development and changes in urban and rural community governance and provide ongoing technical support for future governance.
[0124] In summary, the digital system for urban and rural community governance based on the "five-party linkage" of this invention can effectively solve many problems in urban and rural community governance, improve governance effectiveness, and promote harmonious and stable community development.
[0125] Second, this invention is based on a digital system solution for urban and rural community governance based on the "five-party linkage" model. It uses digital means to realize functions such as data collection, information transmission, resource sharing, service interaction, and collaborative governance, thereby improving the efficiency and level of urban and rural community governance and achieving resource sharing, information exchange, service interaction, and collaborative governance.
[0126] "One platform" refers to the establishment of a smart technology community cloud platform. "N applications" refer to the subsystems integrated and developed on the cloud platform based on the specific needs of the community. These include subsystems such as WeChat mini-programs, real-time monitoring, geographic information, and data visualization dashboards. By integrating various systems at different levels, which are often scattered, isolated, and have single purposes, a unified page entry point and unified account authentication are achieved, enabling interconnectivity of information at the community level. This also ensures effective integration with the WeChat platform and community news portal, achieving interoperability and data sharing.
[0127] Integrate various data resources related to the community to establish a basic data collection, updating, and maintenance mechanism for community "people, events, and things." Collect information using hardware sensing and the internet, achieving one-time collection for multiple uses and effectively improving the efficiency of community management and services. Through the platform, integrate the resources of five sectors (community, social organizations, social workers, community volunteers, and social charitable resources) to provide relevant services to community residents, further laying a solid foundation for the modernization of the national grassroots social governance system.
[0128] By connecting the community's surveillance system, electric vehicle charging stations, drones, and other technological equipment to the smart technology community cloud platform, the service center's grassroots staff can monitor the system at any time, preventing unauthorized wiring, fires, and eliminating safety hazards, thus significantly improving the level of security.
[0129] Building a community mini-program platform enables online dissemination of relevant policies and procedures, reducing the need for residents to travel to government offices. Residents can directly report problems and requests through the mini-program, and the system can directly push these issues and requests to relevant personnel for collection. Feedback and suggestions from residents can be promptly responded to and tiered, improving efficiency and enhancing residents' sense of security and well-being. Digital grassroots governance tools can automatically track residents' reading of notices, understand actual reach, and then conduct effective secondary notifications based on the importance of the notices. This effectively improves the delivery rate of notices and reduces the manual costs of distributing important notices. Residents proactively read notices online, replacing the traditional, primarily manual, door-to-door approach, reducing repetitive work and addressing the issue of working residents being unable to receive messages during work hours. Guided by the needs of community residents and aiming to optimize their lifestyles, the focus is on strengthening community governance and providing public services. This involves implementing intelligent online and offline services, adapting to the "Internet+" development trend, and building a platform for communication among residents through online activity registration and offline participation, achieving resource sharing among residents and between communities.
[0130] Third, as supporting evidence of the inventiveness of this invention, it is also reflected in the following important aspects:
[0131] (1) The expected benefits and commercial value of the technical solution of this invention after transformation are as follows:
[0132] The expected benefits and commercial value of the digital system for urban and rural community governance based on the "five-party linkage" model are as follows:
[0133] Improve governance efficiency: Digital systems can enable information sharing and collaborative governance, improve governance efficiency, reduce resource waste and duplication of work, and thus reduce governance costs.
[0134] Improving service quality: Digital systems can enable service interaction and resource sharing, improve service quality, meet the needs of residents and businesses, and enhance community cohesion and a sense of belonging.
[0135] Enhancing community competitiveness: Digital systems can improve community governance and service quality, enhance community competitiveness, attract more businesses and talents to develop in the community, and promote the prosperity and development of the community economy.
[0136] Creating business value: Digital systems can provide more business opportunities for governments, enterprises, and social organizations, such as data analysis, software development, and system maintenance, thereby creating more business value.
[0137] Driving digital transformation: Digital systems can drive the digital transformation of urban and rural community governance, promote the development of informatization, intelligence, and networking, and improve the modernization level of urban and rural community governance.
[0138] (2) The technical solution of this invention fills a technical gap in the industry both domestically and internationally:
[0139] Data sharing and collaborative governance technologies: Digital systems enable data sharing and collaborative governance among governments, enterprises, social organizations, communities, and residents, filling a technological gap in this area in China.
[0140] Service interaction and resource sharing technology: Digital systems enable service interaction and resource sharing among governments, enterprises, social organizations, communities and residents, filling a technological gap in this area in China.
[0141] Information security protection technologies: Digital systems involve a large amount of sensitive information, requiring enhanced information security protection. The adoption of encryption technology and identity authentication measures fills a technological gap in this area domestically.
[0142] Regulatory mechanisms and management technologies: Digital systems require the establishment of regulatory mechanisms and management technologies to ensure the legality and standardization of governance, filling a technological gap in this area in China.
[0143] Functional optimization and effect evaluation technology: Digital systems need to establish functional optimization and effect evaluation technology to continuously monitor and evaluate the system, identify problems and deficiencies in a timely manner, and then optimize the functions, filling the technological gap in this area in China.
[0144] (3) Whether the technical solution of the present invention solves the technical problem that people have long wanted to solve but have never been able to solve successfully:
[0145] Data sharing and integration: Urban and rural community governance involves multiple departments and fields, resulting in fragmented data sources, inconsistent formats, and difficulties in sharing and integration. Digital systems, by establishing data standards and sharing mechanisms, have enabled data sharing and integration, improving data quality and efficiency.
[0146] Information-based management: Traditional urban and rural community governance methods suffer from problems such as information asymmetry and irregular management. Digital systems, by establishing an information management platform, achieve comprehensive, accurate, and timely management and monitoring of information.
[0147] Intelligent decision-making: Urban and rural community governance requires comprehensive consideration of multiple factors, and traditional decision-making methods are easily influenced by subjective factors. Digital systems, by introducing artificial intelligence technology, achieve intelligent decision-making, improving governance efficiency and accuracy.
[0148] Convenient Services: Traditional urban and rural community governance services require manual processing, which is inefficient and makes it difficult to guarantee service quality. Digital systems, by establishing convenient service platforms, enable various service methods such as online and self-service, thereby improving service efficiency and quality.
[0149] Security Assurance: Digital systems involve a large amount of sensitive information, making security a significant challenge. Digital systems ensure security and stability by establishing security mechanisms, including data encryption, access control, and security auditing.
[0150] (4) Does the technical solution of the present invention overcome technical bias?
[0151] The bias of relying on a single technology: Traditional urban and rural community governance methods often rely on a single technology, such as manual patrols or telephone emergency calls, neglecting the synergistic effect of multiple technologies. Digital systems, by employing multiple technologies such as data sharing, service interaction, and collaborative governance, overcome this bias.
[0152] The bias of technology being detached from reality: Traditional urban and rural community governance methods are often out of touch with reality, lacking in-depth understanding and analysis of community governance. Digital systems, through data analysis and user feedback, gain a deeper understanding of the actual situation of community governance, thus overcoming the bias of technology being detached from reality.
[0153] Bias due to inappropriate technology application: Traditional urban and rural community governance methods are often misused, lacking scientific governance models and standardized governance processes. Digital systems, by establishing governance rules and processes, ensure fairness, impartiality, and efficiency in governance, thus overcoming biases related to inappropriate technology application.
[0154] Technical security risk bias: Digital systems involve a large amount of sensitive information, posing risks of information leakage and security. Digital systems employ encryption technology, identity authentication, and other measures to ensure the security and reliability of information, thus overcoming technical security risk bias.
[0155] The bias that technology can replace human labor: Digital systems are often mistakenly believed to completely replace human labor, ignoring the crucial role of human resources in community governance. Digital systems, through their synergy with human resources, improve governance efficiency and service quality, thus overcoming this bias. Attached Figure Description
[0156] To more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the embodiments of the present invention will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0157] Figure 1 This is a flowchart of the control method for the digital cloud system for urban and rural community governance provided in an embodiment of the present invention;
[0158] Figure 2 This is an information interaction diagram of the digital cloud system for urban and rural community governance provided in this embodiment of the invention;
[0159] Figure 3 This is a schematic diagram of the structure of the digital cloud system for urban and rural community governance provided in an embodiment of the present invention;
[0160] Figure 4 This is an architecture diagram of a specific application of the digital cloud system for urban and rural community governance provided in this embodiment of the invention;
[0161] Figure 5 A smart technology community cloud platform is built based on the digital system for urban and rural community governance that links five communities, as provided in the embodiments of this invention. Detailed Implementation
[0162] To make the objectives, technical solutions, and advantages of this invention clearer, the invention will be further described in detail below with reference to embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the invention.
[0163] To address the problems existing in the prior art, the present invention provides a digital cloud system, control method, equipment and terminal for urban and rural community governance. The present invention will be described in detail below with reference to the accompanying drawings.
[0164] A highly collaborative model for participating in urban and rural community governance.
[0165] like Figure 1 As shown, the control method of the digital cloud system for urban and rural community governance provided in this embodiment of the invention includes the following steps:
[0166] S101, the data acquisition module uses IoT and big data technologies to collect urban and rural community data in real time and integrate the relevant data to build a data resource library;
[0167] S102, the information transmission module establishes an information transmission mechanism to enable information exchange between the government, enterprises, social organizations, communities and residents;
[0168] S103 utilizes the resource sharing module to achieve resource sharing among governments, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental resource sharing;
[0169] S104 utilizes the service interaction module to realize service interaction between the government, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental service interaction;
[0170] S105 utilizes the collaborative governance module to achieve collaborative governance among government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental collaborative governance;
[0171] S106, the function optimization module establishes a system operation monitoring and effect evaluation mechanism to analyze and evaluate the system operation status, and achieves system function optimization through the monitoring and analysis of the system operation status.
[0172] The urban and rural community data in the data acquisition module provided in this embodiment of the invention includes urban and rural community infrastructure data, public service data, public security data, and environmental protection data.
[0173] The information exchange in the information transmission module provided in this embodiment of the invention includes: the government releasing policy regulations and public service information through the digital cloud system for urban and rural community governance; enterprises releasing recruitment and training information; social organizations releasing volunteer service and donation information; and communities and residents releasing needs and suggestions.
[0174] The resource sharing module provided in this embodiment of the invention includes: the government sharing public service resources through the digital cloud system for urban and rural community governance; enterprises sharing technology and talent resources; social organizations sharing volunteer services and donation resources; and communities and residents sharing idle goods and mutual aid service resources.
[0175] The service interactions in the service interaction module provided in this embodiment of the invention include: the government providing convenient services and policy consultation services through the digital cloud system for urban and rural community governance; enterprises providing employment and training services; social organizations providing volunteer services and donation services; and communities and residents providing mutual assistance services and neighborhood watch services.
[0176] The collaborative governance module provided in this embodiment of the invention includes: the government, through the digital cloud system for urban and rural community governance, jointly formulates urban and rural community governance plans with enterprises, social organizations, communities and residents, jointly participates in the implementation of urban and rural community governance projects, and jointly evaluates the governance results of urban and rural communities.
[0177] like Figure 2 As shown, the digital cloud system for urban and rural community governance provided in this embodiment of the invention includes:
[0178] The data acquisition module is used to collect urban and rural community data in real time through Internet of Things (IoT) and big data technologies.
[0179] The information transmission module is used to achieve information exchange between the government, enterprises, social organizations, communities and residents by establishing an information transmission mechanism;
[0180] The resource sharing module is used to enable resource sharing among governments, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental resource sharing;
[0181] The service interaction module is used to enable service interactions between the government, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental service interactions;
[0182] The collaborative governance module is used to achieve collaborative governance among governments, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental collaborative governance;
[0183] The function optimization module is used to establish a system operation monitoring and effect evaluation mechanism, regularly analyze and evaluate the system operation status, and optimize system functions through monitoring and analysis of system operation status.
[0184] The detailed working principle of the digital cloud system for urban and rural community governance provided in this embodiment of the invention is as follows:
[0185] 1) Data Acquisition Module: The data acquisition module utilizes IoT and big data technologies to collect real-time data from urban and rural communities, including but not limited to environmental monitoring data, security monitoring data, municipal facility data, resident information, and social events. This data will provide foundational support for subsequent information dissemination, resource sharing, service interaction, collaborative governance, and functional optimization.
[0186] 2) Information Transmission Module: This module establishes an information transmission mechanism to facilitate information exchange among the government, businesses, social organizations, communities, and residents. It can transmit information through various means, such as SMS, email, and social media, enabling all parties to promptly access relevant information on urban and rural community governance and improving the efficiency and effectiveness of information transmission.
[0187] 3) Resource Sharing Module: This module aims to facilitate resource sharing among governments, businesses, social organizations, communities, and residents, as well as cross-regional and cross-departmental resource sharing. This module will help integrate resources from all parties, leverage resource advantages, improve resource utilization efficiency, and reduce resource waste.
[0188] 4) Service Interaction Module: This module establishes an online service platform to facilitate service interaction among the government, businesses, social organizations, communities, and residents, as well as cross-regional and cross-departmental service interactions. This module provides services such as online consultation, repair requests, complaints, and suggestions, enhancing interaction and cooperation among all parties and improving service quality and efficiency.
[0189] 5) Collaborative Governance Module: This module establishes a collaborative governance mechanism to achieve collaborative governance among the government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental collaborative governance. This module will help all parties cooperate closely to jointly participate in urban and rural community governance and improve governance effectiveness.
[0190] 6) Function Optimization Module: This module establishes a system operation monitoring and effectiveness evaluation mechanism to regularly analyze and evaluate the system's operation. By monitoring and analyzing the system's operation, shortcomings can be identified, leading to the optimization and improvement of system functions. This will help improve the operational efficiency and governance effectiveness of the digital cloud system for urban and rural community governance.
[0191] In summary, the digital cloud system for urban and rural community governance provided by this invention achieves digitalization, intelligence, and collaboration in urban and rural community governance through the coordinated operation of data acquisition modules, information transmission modules, resource sharing modules, service interaction modules, collaborative governance modules, and function optimization modules, thereby improving the efficiency and effectiveness of urban and rural community governance.
[0192] like Figure 3 As shown, the digital cloud system for urban and rural community governance provided in this embodiment of the invention specifically includes:
[0193] 1) System Architecture
[0194] A unified, multi-layered digital system for urban and rural community governance should be constructed, encompassing five main stakeholders: government, enterprises, social organizations, communities, and residents. The system should possess functions such as data collection, information transmission, resource sharing, service interaction, and collaborative governance.
[0195] 2) Data Collection
[0196] By using technologies such as the Internet of Things and big data, data on infrastructure, public services, public security, and environmental protection in urban and rural communities can be collected in real time to provide a basis for decision-making.
[0197] 3) Information transmission
[0198] Establish an information sharing mechanism to facilitate information exchange among the government, businesses, social organizations, communities, and residents. For example, the government can use the system to publish policies, regulations, and public service information; businesses can publish recruitment and training information; social organizations can publish information on volunteer services and donations; and communities and residents can publish their needs, opinions, and suggestions.
[0199] 4) Resource sharing
[0200] The system enables resource sharing, including resource sharing among governments, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental resource sharing. For example, governments can share public service resources, enterprises can share resources such as technology and talent, social organizations can share resources such as volunteer services and donations, and communities and residents can share resources such as idle goods and mutual aid services.
[0201] 5) Service Interaction
[0202] The system enables service interaction, including interaction between the government, businesses, social organizations, communities, and residents, as well as cross-regional and cross-departmental service interaction. For example, the government can provide services such as public convenience services and policy consultations; businesses can provide services such as employment and training; social organizations can provide services such as volunteer services and donations; and communities and residents can provide services such as mutual assistance and neighborhood watch.
[0203] 6) Collaborative Governance
[0204] Collaborative governance is achieved through systems, including collaborative governance among governments, businesses, social organizations, communities, and residents, as well as cross-regional and cross-departmental collaborative governance. For example, governments can work with businesses, social organizations, communities, and residents to develop urban and rural community governance plans, participate in the implementation of urban and rural community governance projects, and jointly evaluate the outcomes of urban and rural community governance.
[0205] 7) Continuous optimization
[0206] By monitoring and analyzing the system's operation, we continuously optimize system functions, improve system operating efficiency, and meet the development needs of urban and rural community governance.
[0207] By implementing the above plan, the digitalization level of urban and rural community governance can be effectively improved, collaborative governance through the "five-party linkage" can be achieved, and the harmonious, stable and sustainable development of urban and rural communities can be promoted.
[0208] "Five-Party Collaboration" refers to a model in which the government, enterprises, social organizations, community residents, and social workers jointly participate in urban and rural community governance. This invention implements a digital cloud system for urban and rural community governance based on "Five-Party Collaboration" through the following steps:
[0209] 1) Define objectives: Clarify the objectives of the digital system, namely, to improve the efficiency, convenience and transparency of urban and rural community governance and promote collaborative cooperation among the five sectors.
[0210] 2) System Design: Design a comprehensive digital system, including functional modules such as information dissemination, resource sharing, problem feedback, and data analysis, to meet the needs of all parties involved in the five-party collaboration.
[0211] 3) Technical support: Select appropriate technical architecture and development tools, such as cloud computing, big data, and artificial intelligence, to provide strong technical support for the system.
[0212] 4) Data integration: Integrate relevant data from government, enterprises, social organizations, community residents and social workers to form a unified data resource library to provide data support for the system.
[0213] 5) System Promotion: Promote the digital system through online and offline publicity and training to enhance the willingness and ability of all parties involved in the five-party collaboration to use it.
[0214] 6) Pilot operation: Select representative urban and rural communities for pilot operation, collect feedback from users, and continuously optimize system functions and performance.
[0215] 7) Full rollout: Based on the success of the pilot operation, the digital system will be fully rolled out to achieve the digital upgrade of urban and rural community governance.
[0216] 8) Continuous optimization: Based on system operation and user feedback, continuously optimize system functions and performance to improve user experience.
[0217] 9) Monitoring and evaluation: Establish a system operation monitoring and effect evaluation mechanism, regularly analyze and evaluate the system operation, and provide a basis for policy formulation and system optimization.
[0218] 10) Policy support: Strengthen policy support and encourage governments, enterprises, social organizations, community residents and social workers to actively participate in the construction and operation of digital systems, so as to create a favorable policy environment.
[0219] A county in a certain city of a certain province took the construction of smart communities as a breakthrough point, selecting Licheng Community, Liushahe Community, and Binhu Community as pilot communities. Relying on the "Five-Community Linkage Urban and Rural Community Governance Digital System", it opened up a variety of platform functions such as government services, public services, communication of demands, public security management, online publicity, and public supervision. It achieved the goal of "letting information and data do the legwork, and grid members and the masses do less legwork". It comprehensively used information technology such as the Internet of Things and the Internet to promote the modernization of grassroots governance and improve the happiness of the masses.
[0220] like Figure 5 As shown, a smart technology community cloud platform is built based on the digital system for urban and rural community governance that links five communities, as provided in the embodiments of the present invention.
[0221] The following are two specific examples of digital cloud systems for urban and rural community governance:
[0222] Example 1: Smart Community Management Platform
[0223] 1) Data Acquisition Module: In a smart community, the data acquisition module collects environmental monitoring data (such as temperature, humidity, noise, etc.), security monitoring data, parking information, and facility and equipment status in real time through IoT sensors, providing data support for subsequent modules.
[0224] 2) Information delivery module: The information delivery module delivers important notices, event arrangements, safety tips and other information to community residents through community bulletin boards, mobile apps, SMS, emails and other means, ensuring timely delivery and wide coverage of information.
[0225] 3) Resource Sharing Module: The resource sharing module provides functions for reserving and managing shared community resources, such as shared books, shared parking spaces, and shared fitness equipment, making it convenient for residents to view, reserve, and use shared resources within the community, thereby improving resource utilization.
[0226] 4) Service Interaction Module: The service interaction module provides functions such as online repair reporting, complaints and suggestions, and registration for community activities, making it convenient for residents to operate through mobile APP or community service website, thereby improving resident participation and service satisfaction.
[0227] 5) Collaborative Governance Module: The collaborative governance module integrates the efforts of community property management, residents, government departments, and other parties to jointly participate in community governance, such as security patrols, environmental improvement, and cultural activities, thereby improving the effectiveness of community governance.
[0228] 6) Function Optimization Module: The function optimization module collects data such as resident feedback and monitors system usage to regularly optimize and improve the digital cloud system for community governance, ensuring that system functions match residents' needs and improving the efficiency of community governance.
[0229] Example 2: Urban Environmental Monitoring and Governance Platform
[0230] 1) Data Acquisition Module: The data acquisition module collects environmental monitoring data such as urban air quality, water quality, and noise in real time through IoT sensors, providing a scientific basis for environmental governance.
[0231] 2) Information delivery module: The information delivery module delivers environmental monitoring data and environmental early warning information to government departments, enterprises and citizens through official websites, mobile apps, text messages and other means, thereby improving the transparency of environmental information and public participation.
[0232] 3) Resource Sharing Module: The resource sharing module enables the sharing of resources such as environmental monitoring data, environmental protection facilities, and technical solutions, promoting the joint participation of governments, enterprises, and social organizations in environmental governance and improving resource utilization efficiency.
[0233] 4) Service Interaction Module: The service interaction module provides functions such as online complaint reporting, environmental knowledge dissemination, and environmental volunteer registration to enhance public awareness and participation in environmental protection.
[0234] 5) Collaborative Governance Module: The collaborative governance module establishes an environmental joint prevention and control mechanism, integrating the efforts of the government, enterprises, social organizations, and other parties to jointly participate in urban environmental governance and improve governance effectiveness.
[0235] 6) Function Optimization Module: The function optimization module collects user feedback and monitors system usage data to regularly optimize and improve the urban environmental monitoring and governance platform, ensuring that the system functions match actual needs and improve environmental governance efficiency.
[0236] These two examples demonstrate the specific implementation methods of the digital cloud system for urban and rural community governance in different application scenarios. The smart community management platform focuses on improving the quality of life and participation of community residents, while the urban environmental monitoring and governance platform focuses on environmental protection and resource utilization. Through these examples, we can see the broad value and potential of the digital cloud system for urban and rural community governance in practical applications.
[0237] It should be noted that embodiments of the present invention can be implemented in hardware, software, or a combination of both. The hardware portion can be implemented using dedicated logic; the software portion can be stored in memory and executed by a suitable instruction execution system, such as a microprocessor or dedicated-design hardware. Those skilled in the art will understand that the above-described devices and methods can be implemented using computer-executable instructions and / or included in processor control code, for example, such code provided on a carrier medium such as a disk, CD, or DVD-ROM, a programmable memory such as read-only memory (firmware), or a data carrier such as an optical or electronic signal carrier. The devices and modules of the present invention can be implemented by hardware circuitry such as very large-scale integrated circuits or gate arrays, semiconductors such as logic chips, transistors, or programmable hardware devices such as field-programmable gate arrays, programmable logic devices, etc., or by software executed by various types of processors, or by a combination of the above-described hardware circuitry and software, such as firmware.
[0238] The above description is merely a specific embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any modifications, equivalent substitutions, and improvements made by those skilled in the art within the scope of the technology disclosed in the present invention, and within the spirit and principles of the present invention, should be covered within the scope of protection of the present invention.
Claims
1. A digital cloud system, equipment, and terminal for urban and rural community governance, characterized in that, include: The data acquisition module is used to collect urban and rural community data in real time through Internet of Things (IoT) and big data technologies. The information transmission module is used to achieve information exchange between the government, enterprises, social organizations, communities and residents by establishing an information transmission mechanism; The resource sharing module is used to enable resource sharing among governments, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental resource sharing; The service interaction module is used to enable service interactions between the government, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental service interactions; The collaborative governance module is used to achieve collaborative governance among governments, enterprises, social organizations, communities and residents, as well as cross-regional and cross-departmental collaborative governance; The function optimization module is used to establish a system operation monitoring and effect evaluation mechanism, regularly analyze and evaluate the system operation status, and optimize system functions through monitoring and analysis of system operation status.
2. The digital cloud system for urban and rural community governance as described in claim 1, characterized in that, The urban and rural community data in the data collection module includes infrastructure data, public service data, public security data, and environmental protection data of urban and rural communities.
3. The digital cloud system for urban and rural community governance as described in claim 1, characterized in that, Information exchange in the information transmission module includes: the government releasing policy, regulation and public service information through the digital cloud system for urban and rural community governance; enterprises releasing recruitment and training information; social organizations releasing volunteer service and donation information; and communities and residents releasing information on their needs and suggestions.
4. The digital cloud system for urban and rural community governance as described in claim 1, characterized in that, Resource sharing in the resource sharing module includes: the government sharing public service resources through the digital cloud system for urban and rural community governance; enterprises sharing technology and talent resources; social organizations sharing volunteer services and donation resources; and communities and residents sharing idle goods and mutual aid service resources.
5. The digital cloud system for urban and rural community governance as described in claim 1, characterized in that, The service interaction module includes: the government providing convenient services and policy consultation services through the digital cloud system for urban and rural community governance; enterprises providing employment and training services; social organizations providing volunteer services and donation services; and communities and residents providing mutual assistance services and neighborhood watch services.
6. The digital cloud system for urban and rural community governance as described in claim 1, characterized in that, Collaborative governance in the collaborative governance module includes: the government working with enterprises, social organizations, communities and residents through the digital cloud system for urban and rural community governance to jointly formulate urban and rural community governance plans, jointly participate in the implementation of urban and rural community governance projects, and jointly evaluate the governance results of urban and rural communities.
7. A control method for an urban and rural community governance digital cloud system applying any one of claims 1 to 6, characterized in that, The control method for the digital cloud system for urban and rural community governance includes the following steps: Step 1: The data acquisition module uses IoT and big data technologies to collect real-time data from urban and rural communities and integrate the relevant data to build a data resource library; Step two: The information transmission module establishes an information transmission mechanism to achieve information exchange between the government, enterprises, social organizations, communities, and residents; Step 3: Utilize the resource sharing module to achieve resource sharing among the government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental resource sharing; Step four: Utilize the service interaction module to enable service interactions between the government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental service interactions; Step 5: Utilize the collaborative governance module to achieve collaborative governance among government, enterprises, social organizations, communities, and residents, as well as cross-regional and cross-departmental collaborative governance; Step Six: The function optimization module establishes a system operation monitoring and effect evaluation mechanism to analyze and evaluate the system operation status, and achieves system function optimization through the monitoring and analysis of the system operation status.
8. An information data processing terminal, characterized in that, The information data processing terminal is used to implement the digital cloud system for urban and rural community governance as described in any one of claims 1 to 6.
9. A computer device, characterized in that, The computer device includes a memory and a processor. The memory stores a computer program, and when the computer program is executed by the processor, it causes the processor to perform the steps of the control method for the digital cloud system for urban and rural community governance as described in claim 7.
10. A computer-readable storage medium storing a computer program, which, when executed by a processor, causes the processor to perform the steps of the control method for the digital cloud system for urban and rural community governance as described in claim 7.