CN113965594B - Method and system for calculating in smart city network - Google Patents

Abstract

The application discloses a smart city intra-network operation method, which comprises the following steps: establishing a smart city Internet of things; any one or more platforms of a service platform, a management platform and a sensing network platform are built on a cloud platform to form an in-network cloud platform; a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform; and respectively establishing a user platform A and an object platform A on two platforms interacted with the in-network cloud platform. The application also discloses a smart city intra-network computing system. According to the method and the system for operating the intelligent city network, when the cloud platform provides services for the intelligent city, the unified architecture can be adopted, and the same interaction mode and communication protocol are used under the unified architecture, so that the difficulty in supporting the intelligent city by cloud computing is greatly simplified, and the method and the system are favorable for large-scale popularization and application.

Description

Method and system for calculating in smart city network

Technical Field

The application relates to a smart city technology, in particular to a smart city intra-network operation method and system.

Background

Smart cities have become a city development concept and are highly valued by various levels of government and social communities. At present, 100% of secondary provincial cities, 89% of cities above the district level and 49% of county level cities are already developed for smart city construction, and the number of the accumulated participating district level cities reaches more than 300; the smart city planning investment reaches 3 trillion, and the construction investment reaches 6 trillion yuan. Such as 485 million investment in Shenzhen planning, 155 million Fuzhou, 97 million Jinan, 33 million daily karst, 21 million Yinchuan. Meanwhile, 1.2 thousands of ICT manufacturers participate in the construction of smart cities, more than 7000 families of enterprises with more than three-level qualification are integrated in the system, and the traditional CT manufacturers are like Hua Cheng Zhongxing and also comprise Internet enterprises BAT; there are more than 10 tens of thousands of light applications and micro-service providers, providing more than 740 tens of thousands of intelligent city related APP software.

With the large-scale expansion of smart city technologies, cloud computing technology has begun to be applied to smart cities to provide a large number of computing and storage services for the smart cities. However, at present, the cloud computing technology is not specially used for serving the smart city, so that the cloud platform has a complex architecture which interacts with the smart city system when serving the smart city, is not beneficial to unified management, and hinders the development of the smart city system.

Disclosure of Invention

The technical problem to be solved by the application is that the cloud computing technology is not specially used for serving the smart city, so that the cloud platform has a complex structure which is not beneficial to unified management and prevents the development of the smart city system when serving the smart city, and the application aims to provide a smart city intra-network operation method and system for solving the problems.

The application is realized by the following technical scheme:

the intelligent city network operation method includes the following steps:

establishing a smart city Internet of things; the intelligent city Internet of things comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are sequentially interacted;

any one or more platforms of a service platform, a management platform and a sensing network platform are built on a cloud platform to form an in-network cloud platform;

a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform; respectively establishing a user platform A and an object platform A on two platforms interacted with the in-network cloud platform;

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

When the intelligent network system is applied, a novel internet of things structure is adopted, the internet of things structure comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted, the internet of things in the intelligent city is established by means of the structure, functions and working processes in all parts in the structural relationship are all of the prior art, and the description is not repeated here. Different from the mode of an off-network cloud platform, any one of the service platform, the management platform and the sensing network platform can be directly arranged on the cloud platform to form an on-network cloud platform mode, and in the on-network cloud platform mode, the equipment serving as a user platform and an object platform can only have simple data transmission and local control functions, so that local equipment is greatly simplified, and the construction cost of a smart city is reduced.

For the service platform, the management platform and the sensing network platform, when any one of the service platform, the management platform and the sensing network platform is directly built on the cloud platform, interaction between the cloud platform and the local equipment is required to be realized, so that the inventor creatively utilizes the five-platform structure to build the interaction relationship between the cloud platform and the local platform. A service platform A, a management platform A and a sensing network platform A are established on a cloud platform operated in a network, and a user platform A and an object platform A are respectively arranged on two platforms interacted with the cloud platform in the network, so that interaction of adjacent platforms is realized.

The object platform A provides data for the in-network cloud platform, and the user platform A receives calculated data from the in-network cloud platform; and a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform, wherein the sensing network platform A is used for sensing and receiving data provided by the object platform A, the management platform A carries out management and operation, and the service platform A provides the calculated data for the user platform A to accept. For the whole smart city system, each part is designed and realized by adopting a five-platform structure, and the cloud computing technology is realized by adopting the platform structure, so that a unified architecture can be adopted when the cloud platform in the network provides services for the smart city, and the same interaction mode and communication protocol are used under the unified architecture, thereby greatly simplifying the difficulty of providing support for the smart city by cloud computing and being beneficial to large-scale popularization and application.

Further, when the sensing network platform is an in-network cloud platform, the in-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 sensor network platform performs cloud platform intra-network operation, a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on the telecom operator communication 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 method is applied, the sensing network platform is introduced into the cloud platform, all the sensing network platform can be communicated by adopting the cloud platform, and when the sensing network platform is communicated by adopting the cloud platform, the cloud platform is a private cloud of the Internet of things, and the cloud platform performs in-network calculation. For example, when the sensing network platform is a sensing network platform of the internet of vehicles, the user needs to request navigation information, and sends out the request in a voice information mode, and at this time, the sensing network platform senses the request of the user; because of the specificity of the sensor network platform, only the sensor network management platform carries out related operation on the cloud, so that a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on a telecom operator communication platform; after the sensor network management platform finishes calculation at the cloud, related data can be sent to the management platform, so that the identification effect can be effectively improved, the cost can be reduced, and the user experience can be improved.

Further, when the management platform is an in-network cloud platform, the in-network cloud platform is a management cloud platform;

when the management platform carries out cloud platform intra-network operation, a service platform C, a management platform C and a sensing network platform C are established on the management platform, a user platform C is established on the service platform, and an object platform C is established on the sensing network 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 introduced into the cloud platform and can be communicated by the cloud platform, and when the management platform is communicated by the cloud platform, the cloud platform is a private cloud and performs on-line calculation. For example, when the management platform is a management platform of the internet of vehicles, the user needs to request navigation information, the navigation information requested by the user needs to perform path planning and path checking calculation, in order to improve path accuracy, because the management platform is an in-network cloud platform, all operations are completed at the cloud end, but the cloud end needs to realize data interaction with the internet of vehicles, a service platform C, a management platform C and a sensor network platform C are established on the management platform of the cloud end to perform operations and data transmission, so that cloud computing of the management platform is realized, and the management platform completes path planning and path checking calculation through the cloud platform; and simultaneously, a user platform C is established on the service platform, an object platform C is established on the sensing network platform, and data transmission and interaction are realized through the five-platform structure. Through the mode, the module with lower calculation force can be used in the Internet of vehicles, and the part needing a large amount of calculation is put into the cloud platform to be completed, so that the path planning effect can be effectively improved, the cost can be reduced, and the user experience can be improved.

Further, when the service platform is an in-network cloud platform, the in-network cloud platform is a service cloud platform;

when the service platform performs cloud platform intra-network operation, a service platform D, a management platform D and a sensor network platform D are built on the service platform, a user platform D is built on the user platform, and an object platform D is built on the management 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.

When the cloud platform is applied, the service platform is introduced into the cloud platform and can be communicated by the cloud platform, and when the service platform is communicated by the cloud platform, the cloud platform is a private cloud, and the cloud platform performs on-line computing. For example, when the service platform is a service platform of the internet of vehicles, the user needs to request road condition information, the road condition information requested by the user needs to be screened and filtered and provided for the user, and the service platform needs to rely on the cloud platform to calculate to obtain the most accurate path at the moment, then a service platform D, a management platform D and a sensor network platform D are built on the service platform, a user platform D is built on the user platform, and an object platform D is built on the management platform; through this kind of five platform structure realization data transmission and interaction, can use the lower module of calculation power in the internet of vehicles, all put into the cloud platform with the part that needs a large amount of operations and accomplish, both can effectually promote the route screening effect, can reduce cost improvement user experience again.

Further, the method also comprises the following steps: and interacting any one or more platforms which do not form an in-network cloud platform among the service platform, the management platform and the sensing network platform with one or more off-network cloud platforms, and carrying out off-network operation on the platform interacted with the off-network cloud platform through the off-network cloud platform.

When the method is applied, the cost of the exclusive on-line cloud platform is higher, so that the method can operate part of the platforms in a mode of off-line cloud platform.

The intelligent city intra-network operation system comprises an intelligent city internet of things; the intelligent city Internet of things comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are sequentially interacted;

any one or more platforms of the service platform, the management platform and the sensing network platform are established on the cloud platform to form an in-network cloud platform;

when the in-network cloud platform performs in-network operation, a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform; a user platform A and an object platform A are respectively established on the two platforms interacted with the in-network cloud platform;

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

Further, when the sensing network platform is an in-network cloud platform, the in-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;

the sensor network platform performs cloud platform intra-network operation, a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on the telecom operator communication 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 is an in-network cloud platform, the in-network cloud platform is a management cloud platform;

the management platform performs cloud platform intra-network operation, a service platform C, a management platform C and a sensing network platform C are established on the management platform, a user platform C is established on the service platform, and an object platform C is established on the sensing network 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 is an in-network cloud platform, the in-network cloud platform is a service cloud platform;

the service platform performs cloud platform intra-network operation, a service platform D, a management platform D and a sensing network platform D are established on the service platform, a user platform D is established on the user platform, and an object platform D is established on the management 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.

Further, any one or more of the service platform, the management platform and the sensing network platform do not form an in-network cloud platform, the platform interacted with the out-network cloud platform interacts with one or more out-of-network cloud platforms, and the platform interacted with the out-of-network cloud platform performs out-of-network operation through the out-of-network cloud platform.

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

according to the method and the system for operating the intelligent city network, when the cloud platform provides services for the intelligent city, the unified architecture can be adopted, and the same interaction mode and communication protocol are used under the unified architecture, so that the difficulty in supporting the intelligent city by cloud computing is greatly simplified, and the method and the system are favorable for large-scale popularization and application.

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 connection architecture of a sensing cloud platform, a management cloud platform and a service cloud platform of the present application;

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 of the present application;

fig. 8 is a schematic diagram of a connection architecture combining an in-network cloud platform and an out-network 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 method for calculating the intelligent city network of the present application comprises the following steps:

establishing a smart city Internet of things; the intelligent city Internet of things comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are sequentially interacted;

any one or more platforms of a service platform, a management platform and a sensing network platform are built on a cloud platform to form an in-network cloud platform;

a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform; respectively establishing a user platform A and an object platform A on two platforms interacted with the in-network cloud platform;

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

When the embodiment is implemented, a novel internet of things structure is adopted first, the internet of things structure comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are sequentially interacted, the internet of things in the smart city is established by relying on the structure, and functions and working processes in all parts in the structural relationship are all of the prior art and are not repeated here. Different from the mode of an off-network cloud platform, any one of the service platform, the management platform and the sensing network platform can be directly arranged on the cloud platform to form an on-network cloud platform mode, and in the on-network cloud platform mode, the equipment serving as a user platform and an object platform can only have simple data transmission and local control functions, so that local equipment is greatly simplified, and the construction cost of a smart city is reduced.

For the service platform, the management platform and the sensing network platform, when any one of the service platform, the management platform and the sensing network platform is directly built on the cloud platform, interaction between the cloud platform and the local equipment is required to be realized, so that the inventor creatively utilizes the five-platform structure to build the interaction relationship between the cloud platform and the local platform. A service platform A, a management platform A and a sensing network platform A are established on a cloud platform operated in a network, and a user platform A and an object platform A are respectively arranged on two platforms interacted with the cloud platform in the network, so that interaction of adjacent platforms is realized.

The object platform A provides data for the in-network cloud platform, and the user platform A receives calculated data from the in-network cloud platform; and a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform, wherein the sensing network platform A is used for sensing and receiving data provided by the object platform A, the management platform A carries out management and operation, and the service platform A provides the calculated data for the user platform A to accept. For the whole smart city system, each part is designed and realized by adopting a five-platform structure, and the cloud computing technology is realized by adopting the platform structure, so that a unified architecture can be adopted when the cloud platform in the network provides services for the smart city, and the same interaction mode and communication protocol are used under the unified architecture, thereby greatly simplifying the difficulty of providing support for the smart city by cloud computing and being beneficial to large-scale popularization and application.

As shown in fig. 2 and fig. 3, in order to further explain the working process of the embodiment, when the sensing network platform is an in-network cloud platform, the in-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 sensor network platform performs cloud platform intra-network operation, a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on the telecom operator communication 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 embodiment is implemented, the sensing network platform is introduced into the cloud platform and can be communicated by the cloud platform, and when the sensing network platform is communicated by the cloud platform, the cloud platform is a private cloud of the Internet of things and performs in-network calculation. For example, when the sensing network platform is a sensing network platform of the internet of vehicles, the user needs to request navigation information, and sends out the request in a voice information mode, and at this time, the sensing network platform senses the request of the user; because of the specificity of the sensor network platform, only the sensor network management platform carries out related operation on the cloud, so that a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on a telecom operator communication platform; after the sensor network management platform finishes calculation at the cloud, related data can be sent to the management platform, so that the identification effect can be effectively improved, the cost can be reduced, and the user experience can be improved.

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

when the management platform carries out cloud platform intra-network operation, a service platform C, a management platform C and a sensing network platform C are established on the management platform, a user platform C is established on the service platform, and an object platform C is established on the sensing network 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 embodiment is implemented, the management platform introduces the cloud platform and can all adopt cloud platform communication, and when the management platform all adopts cloud platform communication, the cloud platform is a private cloud, and the cloud platform performs on-line computing. For example, when the management platform is a management platform of the internet of vehicles, the user needs to request navigation information, the navigation information requested by the user needs to perform path planning and path checking calculation, in order to improve path accuracy, because the management platform is an in-network cloud platform, all operations are completed at the cloud end, but the cloud end needs to realize data interaction with the internet of vehicles, a service platform C, a management platform C and a sensor network platform C are established on the management platform of the cloud end to perform operations and data transmission, so that cloud computing of the management platform is realized, and the management platform completes path planning and path checking calculation through the cloud platform; and simultaneously, a user platform C is established on the service platform, an object platform C is established on the sensing network platform, and data transmission and interaction are realized through the five-platform structure. Through the mode, the module with lower calculation force can be used in the Internet of vehicles, and the part needing a large amount of calculation is put into the cloud platform to be completed, so that the path planning effect can be effectively improved, the cost can be reduced, and the user experience can be improved.

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

when the service platform performs cloud platform intra-network operation, a service platform D, a management platform D and a sensor network platform D are built on the service platform, a user platform D is built on the user platform, and an object platform D is built on the management 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.

When the embodiment is implemented, the service platform is introduced into the cloud platform, and all the service platform can be communicated by adopting the cloud platform, and when all the service platform is communicated by adopting the cloud platform, the cloud platform is a private cloud, and the cloud platform performs on-line computing. For example, when the service platform is a service platform of the internet of vehicles, the user needs to request road condition information, the road condition information requested by the user needs to be screened and filtered and provided for the user, and the service platform needs to rely on the cloud platform to calculate to obtain the most accurate path at the moment, then a service platform D, a management platform D and a sensor network platform D are built on the service platform, a user platform D is built on the user platform, and an object platform D is built on the management platform; through this kind of five platform structure realization data transmission and interaction, can use the lower module of calculation power in the internet of vehicles, all put into the cloud platform with the part that needs a large amount of operations and accomplish, both can effectually promote the route screening effect, can reduce cost improvement user experience again.

The intelligent city intra-network operation system comprises an intelligent city internet of things; the intelligent city Internet of things comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are sequentially interacted;

any one or more platforms of the service platform, the management platform and the sensing network platform are established on the cloud platform to form an in-network cloud platform;

when the in-network cloud platform performs in-network operation, a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform; a user platform A and an object platform A are respectively established on the two platforms interacted with the in-network cloud platform;

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

In order to further explain the working process of the embodiment, when the sensing network platform is an in-network cloud platform, the in-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;

the sensor network platform performs cloud platform intra-network operation, a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on the telecom operator communication 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 is an in-network cloud platform, the in-network cloud platform is a management cloud platform;

the management platform performs cloud platform intra-network operation, a service platform C, a management platform C and a sensing network platform C are established on the management platform, a user platform C is established on the service platform, and an object platform C is established on the sensing network 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 is an in-network cloud platform, the in-network cloud platform is a service cloud platform;

the service platform performs cloud platform intra-network operation, a service platform D, a management platform D and a sensing network platform D are established on the service platform, a user platform D is established on the user platform, and an object platform D is established on the management 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.

In order to further describe the working process of the embodiment under the co-operation of a plurality of cloud platforms, as shown in fig. 1, in the embodiment, all the operation parts are put into the network to perform the operation,

as shown in fig. 8, in this embodiment: and interacting any one or more platforms which do not form an in-network cloud platform among the service platform, the management platform and the sensing network platform with one or more off-network cloud platforms, and carrying out off-network operation on the platform interacted with the off-network cloud platform through the off-network cloud platform.

When the embodiment is implemented, the exclusive internet cloud platform has higher self cost, so that the application can operate part of the platforms in the way of the internet cloud platform.

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 (8)

1. The intelligent city network operation method is characterized by comprising the following steps:

establishing a smart city Internet of things; the intelligent city Internet of things comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are sequentially interacted;

any one or more platforms of a service platform, a management platform and a sensing network platform are built on the cloud platform to form an in-network cloud platform, any one or more platforms which do not form the in-network cloud platform in the service platform, the management platform and the sensing network platform are interacted with one or more out-network cloud platforms, and the platform interacted with the out-network cloud platform performs out-of-network operation through the out-network cloud platform;

a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform; respectively establishing a user platform A and an object platform A on two platforms interacted with the in-network cloud platform;

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

2. The smart city intra-network operation method of claim 1, wherein when the sensing network platform is an intra-network cloud platform, the intra-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 sensor network platform performs cloud platform intra-network operation, a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on the telecom operator communication 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.

3. The smart city intra-network operation method of claim 1, wherein when the management platform is an intra-network cloud platform, the intra-network cloud platform is a management cloud platform;

when the management platform carries out cloud platform intra-network operation, a service platform C, a management platform C and a sensing network platform C are established on the management platform, a user platform C is established on the service platform, and an object platform C is established on the sensing network 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.

4. The smart city intra-network operation method of claim 1, wherein when the service platform is an intra-network cloud platform, the intra-network cloud platform is a service cloud platform;

when the service platform performs cloud platform intra-network operation, a service platform D, a management platform D and a sensor network platform D are built on the service platform, a user platform D is built on the user platform, and an object platform D is built on the management 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.

5. An intelligent urban network computing system, characterized in that,

the method comprises the steps of including the Internet of things of a smart city; the intelligent city Internet of things comprises a user platform, a service platform, a management platform, a sensor network platform and an object platform which are sequentially interacted;

any one or more of the service platform, the management platform and the sensing network platform are established on the cloud platform to form an in-network cloud platform, any one or more of the service platform, the management platform and the sensing network platform are interacted with one or more out-of-network cloud platforms, and the platform interacted with the out-of-network cloud platform performs out-of-network operation through the out-of-network cloud platform;

when the in-network cloud platform performs in-network operation, a service platform A, a management platform A and a sensing network platform A are established on the in-network cloud platform; a user platform A and an object platform A are respectively established on the two platforms interacted with the in-network cloud platform;

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

6. The smart city intra-network computing system of claim 5, wherein when the sensing network platform is an intra-network cloud platform, the intra-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;

the sensor network platform performs cloud platform intra-network operation, a service platform B, a management platform B and a sensor network platform B are established on the sensor network management platform, a user platform B is established on the management platform, and an object platform B is established on the telecom operator communication 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.

7. The smart city intra-network computing system of claim 5, wherein when the management platform is an intra-network cloud platform, the intra-network cloud platform is a management cloud platform;

the management platform performs cloud platform intra-network operation, a service platform C, a management platform C and a sensing network platform C are established on the management platform, a user platform C is established on the service platform, and an object platform C is established on the sensing network 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.

8. The smart city intra-network computing system of claim 5, wherein when the service platform is an intra-network cloud platform, the intra-network cloud platform is a service cloud platform;

the service platform performs cloud platform intra-network operation, a service platform D, a management platform D and a sensing network platform D are established on the service platform, a user platform D is established on the user platform, and an object platform D is established on the management 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.