CN113411359B - Smart city off-network operation method and system adopting partitioned cloud platform - Google Patents

Abstract

The application discloses a smart city extranet operation method and a system adopting a partitioned cloud platform, which are used for establishing a smart city Internet of things system; establishing a plurality of off-network cloud platforms; when any one of the service platform, the management platform and/or the sensing network platform of the Internet of things in the smart city Internet of things system needs to perform off-network operation, the service platform, the management platform and/or the sensing network platform are interacted with the corresponding off-network cloud platform to complete the off-network operation. According to the intelligent urban off-network computing method and system adopting the partitioned cloud platform, public clouds are specialized effectively, so that different public clouds are dedicated to one or more less computing tasks, on one hand, the computing efficiency can be improved, and on the other hand, data in the same type of computing can be acquired better, and reliable references are provided for data mining and analysis.

Description

Smart city off-network operation method and system adopting partitioned cloud platform

Technical Field

The application relates to the technology of the Internet of things of smart cities, in particular to a smart city off-network operation method and system adopting a partitioned cloud platform.

Background

As one of representative technologies of the third informatization wave, cloud computing has already attracted attention from government departments, universities, scientific enterprises, and the like. With the gradual maturity of technology, cloud computing also starts to cover from the internet field to the traditional field, and in addition to the medical field, fields such as logistics and education also become important ground scenes of cloud computing. The role played by cloud computing is also becoming increasingly important in building smart cities. Cloud computing is used as a large carrier for carrying enterprise data storage and information sharing, and is in a state of multi-form fusion development, and public cloud, private cloud and hybrid cloud serve different user groups due to different characteristics of the cloud computing. In recent years, many cloud computing manufacturers are continually enhancing their IT infrastructure and business automation capabilities to continually expand the worldwide market share. Statistics show that four enterprises, amazon, microsoft, aleba and google, occupy more than half of the share in the global cloud computing market in 2018. By 2020, the share of these four in the global market will be more than 90%. Meanwhile, in order to consolidate the competitive advantage, the cloud computing megahead increases the investment in the aspects of cloud product development, cloud technology upgrading and the like.

In the development process of public cloud technology, a public cloud generally serves different parts in different Internet of things for a long time, so that a large number of operation models are required to be set for the public cloud to match different service types, the public cloud operation efficiency is low, public cloud resource allocation is disturbed, and the application of the public cloud technology in smart cities is seriously affected.

Disclosure of Invention

The technical problem to be solved by the application is that public cloud in the prior art is general public cloud, a great amount of completely different operation work is needed to be born in off-network cloud computing, so that public cloud resource allocation is disordered, and the operation efficiency is low.

The application is realized by the following technical scheme:

the intelligent city off-network operation method adopting the partitioned cloud platform comprises the following steps:

establishing a smart city Internet of things system, wherein the smart city Internet of things system comprises a plurality of Internet of things, and the plurality of Internet of things comprise a user platform, a service platform, a management platform, a sensing network platform and an object platform which are interacted in sequence;

establishing a plurality of extranet cloud platforms, wherein the extranet cloud platforms comprise service cloud platforms, management cloud platforms and sensing cloud platforms, the service platforms of the plurality of Internet of things correspond to the service cloud platforms, the management platforms of the plurality of Internet of things correspond to the management cloud platforms, and the sensing network platforms of the plurality of Internet of things correspond to the sensing cloud platforms;

when any one of the service platform, the management platform and/or the sensing network platform of the Internet of things in the smart city Internet of things system needs to perform off-network operation, the service platform, the management platform and/or the sensing network platform are interacted with the corresponding off-network cloud platform to complete off-network operation.

When the method is applied, the Internet of things system of the smart city is built by adopting the existing Internet of things structure in the prior art. When a service platform, a management platform or a sensing network platform in any one of the Internet of things needs cloud computing service, the construction of the off-network cloud platform architecture can be performed through the method.

In this off-network cloud platform architecture, the cloud platform is a public cloud and is precisely classified into three types: the system comprises a service cloud platform, a management cloud platform and a sensing cloud platform; the service cloud platform is used for providing off-network cloud computing for the service cloud platform; the meaning of the service cloud platform corresponding to the service platforms of the Internet of things in the application means that: in the Internet of things requiring calculation, a service platform performs off-network cloud calculation through a service cloud platform; the number of service cloud platforms can be multiple, and different cloud computing services can be provided for different service platform requirements.

Similarly, in the internet of things, the management platforms of the plurality of internet of things correspond to the management cloud platform, namely, all the internet of things requiring calculation, the management platforms perform off-network cloud calculation through the management cloud platform; the sensing network platforms of the plurality of the Internet of things correspond to the sensing cloud platform, namely, in all the Internet of things requiring calculation, the sensing network platforms perform off-network cloud calculation through the sensing cloud platform.

Because the service cloud platform is specially used for providing off-network cloud computing for the service platform, the corresponding computing module and algorithm flow can be directly set in the service cloud platform for computing contents required by the service platform. The same is true for the management cloud platform and the sensing cloud platform. Therefore, the public cloud architecture planning method can effectively specialize public clouds, so that different public clouds are dedicated to one or more less calculation works, on one hand, the calculation efficiency can be improved, and on the other hand, data in the same type of calculation can be better acquired, and reliable reference is provided for data mining and analysis.

Further, the method also comprises the following steps:

any one of the service cloud platform, the management cloud platform and the sensing cloud platform is divided into a plurality of off-network cloud platforms according to service function types;

when the service platform, the management platform and/or the sensing network platform need to perform off-network operation, confirming the service function type required by the service platform, the management platform and/or the sensing network platform, and completing the off-network operation according to the off-network cloud platform corresponding to the service function type interacted with the service platform, the management platform and/or the sensing network platform and matched with the service function type.

When the cloud computing system is applied, in order to further improve cloud computing efficiency, the cloud computing system further performs functional subdivision on the service cloud platform, the management cloud platform and the sensing cloud platform, each service cloud platform only executes services required by one service platform, each management cloud platform only executes services required by one management platform, and each sensing cloud platform only executes services required by one sensing platform; the data sample collection is facilitated through the subdivided calculation process, and particularly, on the premise that the machine learning technology is popularized on a large scale, a large number of homogeneous samples are obtained, so that the operation efficiency is greatly improved.

Further, when the sensing network platform interacts with an off-network cloud platform, the off-network cloud platform is a sensing cloud platform; the sensor network platform comprises a sensor network management platform, a telecom operator communication platform, a gateway module and a wireless communication module which are interacted in sequence;

when the sensing network platform performs off-network operation through the sensing cloud platform, a user platform B and an object platform B are established on the sensing network management platform, and a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform;

the user platform B, the service platform B, the management platform B, the sensor network platform B and the object platform B interact in sequence, and the sensor network platform B perceives and receives the data of the object platform B and sends the data to the management platform B; and the management platform B carries out operation processing on the data of the object platform B and sends the data to the user platform B through the service platform B.

When the sensor network platform is applied, the sensor network platform is taken as an example, the sensor network platform is introduced into the cloud platform, the sensor network platform can partially adopt cloud platform communication, and when the sensor network platform partially adopts cloud platform communication, the cloud platform is public cloud, and off-network calculation is carried out.

When the sensing network platform is a sensing network platform of the Internet of vehicles, a user needs to request navigation information, the user sends out the request in a voice information mode, and at the moment, the sensing network platform senses the request of the user; in order to improve the accuracy of sensing acquired information, the sensing network platform needs to rely on the cloud platform to calculate and acquire accurate request information of a user, and then a user platform B and an object platform B are established on the sensing network management platform and interact with the first sensing cloud platform to finish identification of the user request information; at the moment, the other Internet of vehicles sensing network platform also needs to perform voice recognition operation, so that the sensing network platform page performs recognition of user request information through interaction with the first sensing cloud platform, and the first sensing cloud platform is a cloud platform specially providing voice recognition operation for the sensing network platform.

Meanwhile, the sensing network platform senses data information in the vehicle, and the data information is required to be analyzed according to the data information and then provided for the management platform to be provided for the management platform to issue services to users, and at the moment, the data information analysis can finish calculation through the second sensing cloud platform; the data information analysis of the other Internet of vehicles sensing network platform can also be completed through the second sensing cloud platform, and the second sensing cloud platform is a cloud platform which is specially used for providing data information analysis for the sensing network platform.

Further, when the management platform interacts with an off-network cloud platform, the off-network cloud platform is a management cloud platform;

when the management platform performs off-network operation through the management cloud platform, a user platform C and an object platform C are established on the management platform, and a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform;

the user platform C, the service platform C, the management platform C, the sensor network platform C and the object platform C interact in sequence, and the sensor network platform C perceives and receives the data of the object platform C and sends the data to the management platform C; and the management platform C carries out operation processing on the data of the object platform C and sends the data to the user platform C through the service platform C.

When the cloud platform is applied, the management platform is taken as an example, the management platform is introduced into the cloud platform, the cloud platform can be partially used for communication, and when the management platform is partially used for communication, the cloud platform is public cloud, and off-network calculation is performed.

When the management platform is a management platform of the Internet of vehicles, a user needs to request navigation information, the navigation information requested by the user needs to carry out path planning and path checking calculation, and in order to improve path accuracy, the management platform needs to rely on a cloud platform to calculate to obtain the most accurate path, then a user platform C and an object platform C are established on the management platform and interact with a first management cloud platform to complete path planning and path checking calculation; at the moment, the other management platform of the Internet of vehicles also needs to perform navigation operation, and then the management platform page performs navigation operation through interaction with the first management cloud platform, so that the first management cloud platform is a cloud platform which is specially used for providing navigation operation for the management network platform.

Meanwhile, when the management platform finds that the fuel quantity of the user is insufficient and needs to navigate to the nearest gas station and carry out vehicle speed matching, another operation mode needs to be carried out, and at the moment, the management platform interacts with the second management cloud platform, and the second management cloud platform completes the operation; at this time, when the management platform of the other Internet of vehicles also needs to perform the nearest gas station navigation and vehicle speed matching, the second management cloud platform completes the operation, and at this time, the second management cloud platform is a cloud platform specially providing the nearest gas station navigation and vehicle speed matching operation for the management network platform.

Further, when the service platform interacts with an off-network cloud platform, the off-network cloud platform is a service cloud platform;

when the service platform performs off-network operation through the service cloud platform, a user platform D and an object platform D are established on the service platform, and a service platform D, a management platform D and a sensing network platform D are established on the service cloud platform;

the user platform D, the service platform D, the management platform D, the sensor network platform D and the object platform D interact in sequence, and the sensor network platform D perceives and receives the data of the object platform D and sends the data to the management platform D; and the management platform D carries out operation processing on the data of the object platform D and sends the data to the user platform D through the service platform D.

The intelligent city extranet operation system adopting the partitioned cloud platform comprises an intelligent city Internet of things and a plurality of extranet cloud platforms, wherein the intelligent city Internet of things system comprises a plurality of Internet of things, and the plurality of Internet of things comprise a user platform, a service platform, a management platform, a sensor network platform and an object platform which are interacted in sequence;

the off-network cloud platform comprises a service cloud platform, a management cloud platform and a sensing cloud platform, wherein the service platforms of the plurality of Internet of things correspond to the service cloud platform, the management platforms of the plurality of Internet of things correspond to the management cloud platform, and the sensing network platforms of the plurality of Internet of things correspond to the sensing cloud platform;

when any one of the service platform, the management platform and/or the sensing network platform of the Internet of things in the smart city Internet of things system needs to perform off-network operation, the service platform, the management platform and/or the sensing network platform are interacted with the corresponding off-network cloud platform to complete off-network operation.

Further, any one of the service cloud platform, the management cloud platform and the sensing cloud platform is divided into a plurality of off-network cloud platforms according to service function types;

when the service platform, the management platform and/or the sensing network platform need to perform off-network operation, confirming the service function type required by the service platform, the management platform and/or the sensing network platform, and completing the off-network operation according to the off-network cloud platform corresponding to the service function type interacted with the service platform, the management platform and/or the sensing network platform and matched with the service function type.

Further, when the sensing network platform interacts with an off-network cloud platform, the off-network cloud platform is a sensing cloud platform; the sensor network platform comprises a sensor network management platform, a telecom operator communication platform, a gateway module and a wireless communication module which are interacted in sequence;

when the sensing network platform performs off-network operation through the sensing cloud platform, a user platform B and an object platform B are established on the sensing network management platform, and a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform;

the user platform B, the service platform B, the management platform B, the sensor network platform B and the object platform B interact in sequence, and the sensor network platform B perceives and receives the data of the object platform B and sends the data to the management platform B; and the management platform B carries out operation processing on the data of the object platform B and sends the data to the user platform B through the service platform B.

Further, when the management platform interacts with an off-network cloud platform, the off-network cloud platform is a management cloud platform;

when the management platform performs off-network operation through the management cloud platform, a user platform C and an object platform C are established on the management platform, and a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform;

the user platform C, the service platform C, the management platform C, the sensor network platform C and the object platform C interact in sequence, and the sensor network platform C perceives and receives the data of the object platform C and sends the data to the management platform C; and the management platform C carries out operation processing on the data of the object platform C and sends the data to the user platform C through the service platform C.

Further, when the service platform interacts with an off-network cloud platform, the off-network cloud platform is a service cloud platform;

when the service platform performs off-network operation through the service cloud platform, a user platform D and an object platform D are established on the service platform, and a service platform D, a management platform D and a sensing network platform D are established on the service cloud platform;

the user platform D, the service platform D, the management platform D, the sensor network platform D and the object platform D interact in sequence, and the sensor network platform D perceives and receives the data of the object platform D and sends the data to the management platform D; and the management platform D carries out operation processing on the data of the object platform D and sends the data to the user platform D through the service platform D.

Compared with the prior art, the application has the following advantages and beneficial effects:

according to the intelligent urban off-network computing method and system adopting the partitioned cloud platform, public clouds are specialized effectively, so that different public clouds are dedicated to one or more less computing tasks, on one hand, the computing efficiency can be improved, and on the other hand, data in the same type of computing can be acquired better, and reliable references are provided for data mining and analysis.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the principles of the application. In the drawings:

FIG. 1 is a schematic diagram of a public cloud platform system shared by multiple Internet of things;

FIG. 2 is a schematic diagram of a connection architecture of a sensor cloud platform according to the present application;

FIG. 3 is a schematic diagram of a connection architecture of the sensor cloud platform of the present application;

FIG. 4 is a schematic diagram of a connection architecture of a management cloud platform according to the present application;

FIG. 5 is a schematic diagram of a connection architecture of a management cloud platform according to the present application;

FIG. 6 is a schematic diagram of a connection architecture of the service cloud platform of the present application;

fig. 7 is a schematic diagram of a connection architecture of the service cloud platform according to the present application.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present application, the present application will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present application and the descriptions thereof are for illustrating the present application only and are not to be construed as limiting the present application.

Examples

As shown in fig. 1, the smart city extranet operation method adopting the partitioned cloud platform of the application comprises the following steps:

establishing a smart city Internet of things system, wherein the smart city Internet of things system comprises a plurality of Internet of things, and the plurality of Internet of things comprise a user platform, a service platform, a management platform, a sensing network platform and an object platform which are interacted in sequence;

establishing a plurality of extranet cloud platforms, wherein the extranet cloud platforms comprise service cloud platforms, management cloud platforms and sensing cloud platforms, the service platforms of the plurality of Internet of things correspond to the service cloud platforms, the management platforms of the plurality of Internet of things correspond to the management cloud platforms, and the sensing network platforms of the plurality of Internet of things correspond to the sensing cloud platforms;

when any one of the service platform, the management platform and/or the sensing network platform of the Internet of things in the smart city Internet of things system needs to perform off-network operation, the service platform, the management platform and/or the sensing network platform are interacted with the corresponding off-network cloud platform to complete off-network operation.

When the embodiment is implemented, the Internet of things system of the smart city is built by adopting an existing Internet of things structure in the prior art. When a service platform, a management platform or a sensing network platform in any one of the Internet of things needs cloud computing service, the construction of the off-network cloud platform architecture can be performed through the method.

In this off-network cloud platform architecture, the cloud platform is a public cloud and is precisely classified into three types: the system comprises a service cloud platform, a management cloud platform and a sensing cloud platform; the service cloud platform is used for providing off-network cloud computing for the service cloud platform; the meaning of the service cloud platform corresponding to the service platforms of the Internet of things in the application means that: in the Internet of things requiring calculation, a service platform performs off-network cloud calculation through a service cloud platform; the number of service cloud platforms can be multiple, and different cloud computing services can be provided for different service platform requirements.

Similarly, in the internet of things, the management platforms of the plurality of internet of things correspond to the management cloud platform, namely, all the internet of things requiring calculation, the management platforms perform off-network cloud calculation through the management cloud platform; the sensing network platforms of the plurality of the Internet of things correspond to the sensing cloud platform, namely, in all the Internet of things requiring calculation, the sensing network platforms perform off-network cloud calculation through the sensing cloud platform.

Because the service cloud platform is specially used for providing off-network cloud computing for the service platform, the corresponding computing module and algorithm flow can be directly set in the service cloud platform for computing contents required by the service platform. The same is true for the management cloud platform and the sensing cloud platform. Therefore, the public cloud architecture planning method can effectively specialize public clouds, so that different public clouds are dedicated to one or more less calculation works, on one hand, the calculation efficiency can be improved, and on the other hand, data in the same type of calculation can be better acquired, and reliable reference is provided for data mining and analysis.

To further illustrate the operation of this embodiment, the method further includes the steps of:

any one of the service cloud platform, the management cloud platform and the sensing cloud platform is divided into a plurality of off-network cloud platforms according to service function types;

when the service platform, the management platform and/or the sensing network platform need to perform off-network operation, confirming the service function type required by the service platform, the management platform and/or the sensing network platform, and completing the off-network operation according to the off-network cloud platform corresponding to the service function type interacted with the service platform, the management platform and/or the sensing network platform and matched with the service function type.

In the implementation of the embodiment, in order to further improve the cloud computing efficiency, the application further performs functional subdivision on the service cloud platform, the management cloud platform and the sensing cloud platform, each service cloud platform only executes services required by one service platform, each management cloud platform only executes services required by one management platform, and each sensing cloud platform only executes services required by one sensing platform; the data sample collection is facilitated through the subdivided calculation process, and particularly, on the premise that the machine learning technology is popularized on a large scale, a large number of homogeneous samples are obtained, so that the operation efficiency is greatly improved.

As shown in fig. 2 and fig. 3, in order to further illustrate the working process of the embodiment, when the sensor network platform interacts with an off-network cloud platform, the off-network cloud platform is a sensor cloud platform; the sensor network platform comprises a sensor network management platform, a telecom operator communication platform, a gateway module and a wireless communication module which are interacted in sequence;

when the sensing network platform performs off-network operation through the sensing cloud platform, a user platform B and an object platform B are established on the sensing network management platform, and a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform;

the user platform B, the service platform B, the management platform B, the sensor network platform B and the object platform B interact in sequence, and the sensor network platform B perceives and receives the data of the object platform B and sends the data to the management platform B; and the management platform B carries out operation processing on the data of the object platform B and sends the data to the user platform B through the service platform B.

In the implementation of the embodiment, taking the sensing network platform as an example, the sensing network platform is introduced into the cloud platform, and can partially adopt cloud platform communication, and when the sensing network platform partially adopts cloud platform communication, the cloud platform is public cloud, and off-network calculation is performed.

When the sensing network platform is a sensing network platform of the Internet of vehicles, a user needs to request navigation information, the user sends out the request in a voice information mode, and at the moment, the sensing network platform senses the request of the user; in order to improve the accuracy of sensing acquired information, the sensing network platform needs to rely on the cloud platform to calculate and acquire accurate request information of a user, and then a user platform B and an object platform B are established on the sensing network management platform and interact with the first sensing cloud platform to finish identification of the user request information; at the moment, the other Internet of vehicles sensing network platform also needs to perform voice recognition operation, so that the sensing network platform page performs recognition of user request information through interaction with the first sensing cloud platform, and the first sensing cloud platform is a cloud platform specially providing voice recognition operation for the sensing network platform.

Meanwhile, the sensing network platform senses data information in the vehicle, and the data information is required to be analyzed according to the data information and then provided for the management platform to be provided for the management platform to issue services to users, and at the moment, the data information analysis can finish calculation through the second sensing cloud platform; the data information analysis of the other Internet of vehicles sensing network platform can also be completed through the second sensing cloud platform, and the second sensing cloud platform is a cloud platform which is specially used for providing data information analysis for the sensing network platform.

As shown in fig. 4 and fig. 5, in order to further illustrate the working process of the embodiment, when the management platform interacts with the off-network cloud platform, the off-network cloud platform is a management cloud platform;

when the management platform performs off-network operation through the management cloud platform, a user platform C and an object platform C are established on the management platform, and a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform;

the user platform C, the service platform C, the management platform C, the sensor network platform C and the object platform C interact in sequence, and the sensor network platform C perceives and receives the data of the object platform C and sends the data to the management platform C; and the management platform C carries out operation processing on the data of the object platform C and sends the data to the user platform C through the service platform C.

In the implementation of this embodiment, taking the management platform as an example, the management platform introduces a cloud platform, and may partially adopt cloud platform communication, and when the management platform partially adopts cloud platform communication, the cloud platform is public cloud, and it performs off-network computing.

When the management platform is a management platform of the Internet of vehicles, a user needs to request navigation information, the navigation information requested by the user needs to carry out path planning and path checking calculation, and in order to improve path accuracy, the management platform needs to rely on a cloud platform to calculate to obtain the most accurate path, then a user platform C and an object platform C are established on the management platform and interact with a first management cloud platform to complete path planning and path checking calculation; at the moment, the other management platform of the Internet of vehicles also needs to perform navigation operation, and then the management platform page performs navigation operation through interaction with the first management cloud platform, so that the first management cloud platform is a cloud platform which is specially used for providing navigation operation for the management network platform.

Meanwhile, when the management platform finds that the fuel quantity of the user is insufficient and needs to navigate to the nearest gas station and carry out vehicle speed matching, another operation mode needs to be carried out, and at the moment, the management platform interacts with the second management cloud platform, and the second management cloud platform completes the operation; at this time, when the management platform of the other Internet of vehicles also needs to perform the nearest gas station navigation and vehicle speed matching, the second management cloud platform completes the operation, and at this time, the second management cloud platform is a cloud platform specially providing the nearest gas station navigation and vehicle speed matching operation for the management network platform.

As shown in fig. 6 and fig. 7, in order to further illustrate the working process of the embodiment, when the service platform interacts with the off-network cloud platform, the off-network cloud platform is a service cloud platform;

when the service platform performs off-network operation through the service cloud platform, a user platform D and an object platform D are established on the service platform, and a service platform D, a management platform D and a sensing network platform D are established on the service cloud platform;

the user platform D, the service platform D, the management platform D, the sensor network platform D and the object platform D interact in sequence, and the sensor network platform D perceives and receives the data of the object platform D and sends the data to the management platform D; and the management platform D carries out operation processing on the data of the object platform D and sends the data to the user platform D through the service platform D.

The intelligent city extranet operation system adopting the partitioned cloud platform comprises an intelligent city Internet of things and a plurality of extranet cloud platforms, wherein the intelligent city Internet of things system comprises a plurality of Internet of things, and the plurality of Internet of things comprise a user platform, a service platform, a management platform, a sensor network platform and an object platform which are interacted in sequence;

the off-network cloud platform comprises a service cloud platform, a management cloud platform and a sensing cloud platform, wherein the service platforms of the plurality of Internet of things correspond to the service cloud platform, the management platforms of the plurality of Internet of things correspond to the management cloud platform, and the sensing network platforms of the plurality of Internet of things correspond to the sensing cloud platform;

when any one of the service platform, the management platform and/or the sensing network platform of the Internet of things in the smart city Internet of things system needs to perform off-network operation, the service platform, the management platform and/or the sensing network platform are interacted with the corresponding off-network cloud platform to complete off-network operation.

In order to further explain the working process of the embodiment, any one of the service cloud platform, the management cloud platform and the sensing cloud platform is divided into a plurality of off-network cloud platforms according to service function types;

when the service platform, the management platform and/or the sensing network platform need to perform off-network operation, confirming the service function type required by the service platform, the management platform and/or the sensing network platform, and completing the off-network operation according to the off-network cloud platform corresponding to the service function type interacted with the service platform, the management platform and/or the sensing network platform and matched with the service function type.

In order to further explain the working process of the embodiment, when the sensing network platform interacts with an off-network cloud platform, the off-network cloud platform is a sensing cloud platform; the sensor network platform comprises a sensor network management platform, a telecom operator communication platform, a gateway module and a wireless communication module which are interacted in sequence;

when the sensing network platform performs off-network operation through the sensing cloud platform, a user platform B and an object platform B are established on the sensing network management platform, and a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform;

the user platform B, the service platform B, the management platform B, the sensor network platform B and the object platform B interact in sequence, and the sensor network platform B perceives and receives the data of the object platform B and sends the data to the management platform B; and the management platform B carries out operation processing on the data of the object platform B and sends the data to the user platform B through the service platform B.

In order to further explain the working process of the embodiment, when the management platform interacts with an off-network cloud platform, the off-network cloud platform is a management cloud platform;

when the management platform performs off-network operation through the management cloud platform, a user platform C and an object platform C are established on the management platform, and a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform;

the user platform C, the service platform C, the management platform C, the sensor network platform C and the object platform C interact in sequence, and the sensor network platform C perceives and receives the data of the object platform C and sends the data to the management platform C; and the management platform C carries out operation processing on the data of the object platform C and sends the data to the user platform C through the service platform C.

In order to further explain the working process of the embodiment, when the service platform interacts with the off-network cloud platform, the off-network cloud platform is a service cloud platform;

when the service platform performs off-network operation through the service cloud platform, a user platform D and an object platform D are established on the service platform, and a service platform D, a management platform D and a sensing network platform D are established on the service cloud platform;

the user platform D, the service platform D, the management platform D, the sensor network platform D and the object platform D interact in sequence, and the sensor network platform D perceives and receives the data of the object platform D and sends the data to the management platform D; and the management platform D carries out operation processing on the data of the object platform D and sends the data to the user platform D through the service platform D.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the application, and is not meant to limit the scope of the application, but to limit the application to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the application are intended to be included within the scope of the application.

Claims (6)

1. The intelligent city extranet operation method adopting the partitioned cloud platform is characterized by comprising the following steps of:

establishing a smart city Internet of things system, wherein the smart city Internet of things system comprises a plurality of Internet of things, and the plurality of Internet of things comprise a user platform, a service platform, a management platform, a sensing network platform and an object platform which are interacted in sequence;

establishing a plurality of off-network cloud platforms based on service function types, wherein the off-network cloud platforms comprise service cloud platforms, management cloud platforms and sensing cloud platforms, the service platforms of the plurality of Internet of things correspond to the service cloud platforms, the management platforms of the plurality of Internet of things correspond to the management cloud platforms, and the sensing network platforms of the plurality of Internet of things correspond to the sensing cloud platforms;

when any one of the service platforms, the management platforms and/or the sensing network platforms of the Internet of things in the smart city Internet of things system needs to perform off-network operation, confirming the service function types required by the any one of the service platforms, the management platforms and/or the sensing network platforms of the Internet of things, and establishing the service platform, the management platform and/or the sensing network platform of the any one of the Internet of things in the off-network cloud platform which corresponds to the service function types and is matched with the service platform, according to the service function types, so as to complete the off-network operation;

when the sensing network platform interacts with an off-network cloud platform, the off-network cloud platform is a sensing cloud platform; the sensor network platform comprises a sensor network management platform, a telecom operator communication platform, a gateway module and a wireless communication module which are interacted in sequence;

when the sensing network platform performs off-network operation through the sensing cloud platform, a user platform B and an object platform B are established on the sensing network management platform, and a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform;

the user platform B, the service platform B, the management platform B, the sensor network platform B and the object platform B interact in sequence, and the sensor network platform B perceives and receives the data of the object platform B and sends the data to the management platform B; and the management platform B carries out operation processing on the data of the object platform B and sends the data to the user platform B through the service platform B.

2. The smart city extranet operation method with partitioned cloud platform of claim 1, wherein the extranet cloud platform is a management cloud platform when the management platform interacts with the extranet cloud platform;

when the management platform performs off-network operation through the management cloud platform, a user platform C and an object platform C are established on the management platform, and a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform;

the user platform C, the service platform C, the management platform C, the sensor network platform C and the object platform C interact in sequence, and the sensor network platform C perceives and receives the data of the object platform C and sends the data to the management platform C; and the management platform C carries out operation processing on the data of the object platform C and sends the data to the user platform C through the service platform C.

3. The smart city extranet operation method with partitioned cloud platform of claim 1, wherein when the service platform interacts with the extranet cloud platform, the extranet cloud platform is a service cloud platform;

when the service platform performs off-network operation through the service cloud platform, a user platform D and an object platform D are established on the service platform, and a service platform D, a management platform D and a sensing network platform D are established on the service cloud platform;

the user platform D, the service platform D, the management platform D, the sensor network platform D and the object platform D interact in sequence, and the sensor network platform D perceives and receives the data of the object platform D and sends the data to the management platform D; and the management platform D carries out operation processing on the data of the object platform D and sends the data to the user platform D through the service platform D.

4. The intelligent city extranet operation system adopting the partitioned cloud platform is characterized by comprising an intelligent city Internet of things system and a plurality of extranet cloud platforms, wherein the intelligent city Internet of things system comprises a plurality of Internet of things, and the plurality of Internet of things comprise a user platform, a service platform, a management platform, a sensor network platform and an object platform which are interacted in sequence;

the off-network cloud platform comprises a service cloud platform, a management cloud platform and a sensing cloud platform, wherein the service platforms of the plurality of Internet of things correspond to the service cloud platform, the management platforms of the plurality of Internet of things correspond to the management cloud platform, and the sensing network platforms of the plurality of Internet of things correspond to the sensing cloud platform;

when any one of the service platform, the management platform and/or the sensing network platform of the Internet of things in the smart city Internet of things system needs to perform off-network operation, the service platform, the management platform and/or the sensing network platform are interacted with the corresponding off-network cloud platform to complete off-network operation;

any one of the service cloud platform, the management cloud platform and the sensing cloud platform is divided into a plurality of off-network cloud platforms according to service function types;

when the service platform, the management platform and/or the sensing network platform need to perform off-network operation, confirming the service function type required by the service platform, the management platform and/or the sensing network platform, and completing off-network operation according to the off-network cloud platform corresponding to the service function type interacted with the service platform, the management platform and/or the sensing network platform and matched with the service function type;

when the sensing network platform interacts with an off-network cloud platform, the off-network cloud platform is a sensing cloud platform; the sensor network platform comprises a sensor network management platform, a telecom operator communication platform, a gateway module and a wireless communication module which are interacted in sequence;

when the sensing network platform performs off-network operation through the sensing cloud platform, a user platform B and an object platform B are established on the sensing network management platform, and a service platform B, a management platform B and a sensing network platform B are established on the sensing cloud platform;

the user platform B, the service platform B, the management platform B, the sensor network platform B and the object platform B interact in sequence, and the sensor network platform B perceives and receives the data of the object platform B and sends the data to the management platform B; and the management platform B carries out operation processing on the data of the object platform B and sends the data to the user platform B through the service platform B.

5. The smart city extranet computing system of claim 4, wherein the extranet cloud platform is a management cloud platform when the management platform interacts with the extranet cloud platform;

when the management platform performs off-network operation through the management cloud platform, a user platform C and an object platform C are established on the management platform, and a service platform C, a management platform C and a sensing network platform C are established on the management cloud platform;

the user platform C, the service platform C, the management platform C, the sensor network platform C and the object platform C interact in sequence, and the sensor network platform C perceives and receives the data of the object platform C and sends the data to the management platform C; and the management platform C carries out operation processing on the data of the object platform C and sends the data to the user platform C through the service platform C.

6. The smart off-network computing system employing a partitioned cloud platform of claim 4, wherein the off-network cloud platform is a service cloud platform when the service platform interacts with the off-network cloud platform;

when the service platform performs off-network operation through the service cloud platform, a user platform D and an object platform D are established on the service platform, and a service platform D, a management platform D and a sensing network platform D are established on the service cloud platform;

the user platform D, the service platform D, the management platform D, the sensor network platform D and the object platform D interact in sequence, and the sensor network platform D perceives and receives the data of the object platform D and sends the data to the management platform D; and the management platform D carries out operation processing on the data of the object platform D and sends the data to the user platform D through the service platform D.