CN105554110B - The application service method and system of cloud smart city - Google Patents

Abstract

The present invention provides a kind of application service methods of cloud smart city, it include: the input of the upstream application apparatus of response external input or access cloud platform, to the event-resources and movement resource transfer processing obtained based on downstream hardware equipment, in conjunction with Custom Attributes, application is formed, and then forms corresponding application resource；It is operated by the activation of the application resource, application accordingly is enabled to enter monitoring operating status；The input of upstream application apparatus is responded, upstream application apparatus provides a platform interface, and the platform interface provides the acquisition operating walk way of each application resource；Enter the feedback for obtaining operating walk way and completing to obtain operation in response upstream application apparatus, corresponding application resource is transferred by corresponding upstream application apparatus.

Description

Application service method and system of cloud smart city

Technical Field

The invention relates to a cloud smart city, in particular to an application service method and system of the cloud smart city.

Background

The digital city and the urban informatization are vigorously developed in China over a decade ago, but with the deepening of urban informatization construction, the defects are gradually reflected, and the specific expression is as follows:

application islanding problem-various application functions are isolated from each other and cannot be interconnected and intercommunicated;

data island problem-data of various applications are stored in a server of the data island problem and cannot be subjected to unified data analysis;

due to existence of a data island and an application island, application applications developed by any party based on downstream hardware equipment can only be used in corresponding environments, and in actual environments, other upstream application equipment may also need the developed application applications.

Disclosure of Invention

The invention aims to solve the technical problem of how to solve the problem of insufficient utilization of resources caused by application islands and data islands.

In order to solve the technical problem, the invention provides an application service method of a cloud smart city, which comprises the following steps:

responding to external input or input of upstream application equipment accessed to the cloud platform, calling and processing event resources and action resources obtained based on downstream hardware equipment, and forming an application by combining with the custom attribute so as to form application resources corresponding to the application resources; through the activation operation of the application resource, the corresponding application can enter a monitoring operation state;

responding to the input of the upstream application equipment, and providing a platform interface for the upstream application equipment, wherein the platform interface provides an acquisition operation channel of each application resource;

responding to the feedback of entering the acquisition operation channel and completing the acquisition operation in the upstream application equipment, and calling the corresponding application resource by the corresponding upstream application equipment.

Optionally, the acquiring operation is a purchasing operation.

Optionally, the downstream hardware device includes at least two of a first type device capable of being controlled to perform actions, a second type device capable of collecting external information and feeding back, and a third type device operating by using cloud computing resources; and the downstream hardware equipment is directly or indirectly connected with the cloud.

Optionally, when the application enters the monitoring running state, according to the application and the real-time data of the downstream hardware device, when the triggering condition of the application is met, the application performs driving of a corresponding action specified by the application:

the corresponding action includes at least one of:

controlling the corresponding first type equipment to complete corresponding actions;

allocating and managing available cloud computing resources of the corresponding third type of equipment;

and transmitting the real-time data of the corresponding first class equipment, second class equipment and third class equipment to the designated position.

Optionally, before responding to the input of the upstream application device, the method further includes opening the resource of the cloud to the upstream application device through a programming language interface, so that the resource can be called through different programming language interfaces.

The invention also provides an application service system of the cloud smart city, which comprises a big data platform and an application service platform, wherein:

the big data platform is used for:

responding to external input or input of upstream application equipment accessed to the cloud platform, calling and processing event resources and action resources obtained based on downstream hardware equipment, and forming an application by combining with the custom attribute so as to form application resources corresponding to the application resources; through the activation operation of the application resource, the corresponding application can enter a monitoring operation state;

the application service platform is used for:

responding to the input of the upstream application equipment, and providing a platform interface for the upstream application equipment, wherein the platform interface provides an acquisition operation channel of each application resource;

the big data platform is further to:

and responding to the feedback of entering the acquisition operation channel in the upstream application equipment and finishing the acquisition operation through the application service platform, and transmitting the corresponding application resource to the corresponding upstream application equipment.

Optionally, the acquiring operation is a purchasing operation.

Optionally, the downstream hardware device includes at least two of a first type device capable of being controlled to perform actions, a second type device capable of collecting external information and feeding back, and a third type device operating by using cloud computing resources; and the downstream hardware equipment is directly or indirectly connected with the cloud.

Optionally, when the application enters the monitoring operation state, the big data module is further configured to drive, according to the application and the real-time data of the downstream hardware device, a corresponding action specified by the application when the triggering condition of the application is met:

the corresponding action includes at least one of:

controlling the corresponding first type equipment to complete corresponding actions;

allocating and managing available cloud computing resources of the corresponding third type of equipment;

and transmitting the real-time data of the corresponding first class equipment, second class equipment and third class equipment to the designated position.

Optionally, the application service system of the cloud smart city further includes a service platform layer, which is used for opening the resources of the cloud to the upstream application device through the programming language interface, so that the resources of the cloud can be called through different programming language interfaces.

The invention firstly opens the action resource and the event resource to the outside, thereby freely forming the application resource, and further, the application resource in the invention can be called by each upstream application device, thereby completing the intercommunication of the application and ensuring that the application is not limited by any platform. The problem of insufficient utilization of resources caused by an application island and a data island is solved.

Drawings

FIG. 1 is a schematic diagram of an operating system of a cloud-based smart city according to an embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating an operation method of a cloud-based smart city according to an embodiment of the present invention;

fig. 3 is a flowchart illustrating an application service method of a cloud smart city according to an embodiment of the present invention.

Detailed Description

The application service method and system of the cloud smart city according to the present invention will be described in detail with reference to fig. 1 to 3, which are alternative embodiments of the present invention, and it is considered that those skilled in the art can modify and decorate the application service method and system without changing the spirit and content of the present invention.

To specifically describe the application service method and system, the following embodiments first describe an operation and operation system and method of a cloud smart city using the application service system and method of the present invention with reference to fig. 1 and 2:

referring to fig. 2, the present invention provides an operation method for a cloud smart city, including the following steps:

generating and storing corresponding event resources and action resources according to information directly or indirectly fed back by downstream hardware equipment and the use condition of cloud computing resources; the downstream hardware equipment comprises at least two of first equipment which can be controlled to act, second equipment which can collect external information and feed back the external information, and third equipment which runs by using cloud computing resources; the downstream hardware equipment is directly or indirectly accessed to the cloud end;

in an optional scheme, the event resource corresponds to at least a state fed back by the first type of device, and/or information collected by the second type of device, and/or a cloud computing resource condition used by the third type of device in current operation, respectively; the action resources respectively correspond to at least action instructions of the first type of equipment, and/or instructions for allocating cloud computing resources available for the third type of equipment, and/or instructions for transmitting real-time data of the corresponding first type of equipment, second type of equipment and third type of equipment to a specified position. Further, the method comprises the following steps:

here, the cloud computing resources are, for example, memory resources, hard disk resources, and the like occupied by the virtual server;

the event resource is exemplified as a resource corresponding to data (such as collected temperature, humidity, and the like) detected by the sensing device, data (such as video collected by a camera, audio collected by an audio radio frequency, and the like) collected by the collecting device, current operation information fed back by various devices, an action state of the first type device, and a use condition of the cloud computing resource fed back by the cloud computing module. By taking the traffic lights as an example, the 'red light on' condition can be established in the application by calling the event resources of the traffic lights, and then the corresponding action resources are called to realize the corresponding action.

The action resources are listed as resources corresponding to instructions for driving the first type of device to act (such as instructions for controlling to open a door), instructions for deploying and managing cloud computing resources, and instructions for performing data transmission (such as transmitting the acquired video to a fixed network location for display or storage, and the like).

Responding to external input or input of upstream application equipment accessed to the cloud platform, calling and processing the event resources and the action resources, and forming an application by combining with the custom attribute;

when the application enters a monitoring running state, driving corresponding actions specified by the application according to the application and real-time data of downstream hardware equipment when a triggering condition of the application is met:

the corresponding action includes at least one of:

controlling the corresponding first type equipment to complete corresponding actions;

allocating and managing available cloud computing resources of the corresponding third type of equipment;

and transmitting the real-time data of the corresponding first class equipment, second class equipment and third class equipment to the designated position.

In the above further scheme, after the application is formed, a process of forming an application resource corresponding to the application is further included; through the activation operation of the application resource, the corresponding application can enter a monitoring operation state, and the application resource can be called in response to the corresponding operation of the upstream application equipment. It should be noted that the application resource is not limited to include a simple trigger relationship, but may also be a complex relationship, and may even be understood as an application resource;

it should also be noted that in the conventional cloud platform, the deployment management of the cloud computing resources is usually deployed according to the actual usage and occupancy of the cloud computing resources, but the present invention is an integrated system and method, and the deployment conditions of the cloud computing resources may also be based on the data collected by the sensor and even the action state of the second type of device, which is just an example, and it can be seen that the present invention integrates these into a whole, rather than a single data island, but provides an integrated platform that can realize the connection of these islands together, which is not thought in the art.

Continuing the above, the invention not only integrates the data islands, but also realizes the connection of the application islands, and any application formed by the upstream application equipment or the cloud can be invoked by other upstream application equipment or the cloud through the acquisition and available invocation of the application resources, so that the data sharing is realized, the application sharing is realized, the platform integration is very needed in the innovation process of the masses, and the exploitation mode and the operation mode are provided for all the parties.

The operation running system of the cloud smart city corresponding to the cloud smart city at least comprises an Internet of things module, a cloud computing module and a big data module; wherein,

the big data module is at least to:

the real-time data and information fed back by the hardware equipment are directly obtained from downstream hardware equipment or indirectly obtained from the downstream hardware equipment through the Internet of things module; and storing the real-time data; the downstream hardware equipment comprises at least two of first equipment which can be controlled to act, second equipment which can collect external information and feed back the external information, and third equipment which runs by using cloud computing resources; the downstream hardware equipment is directly or indirectly accessed to the cloud end;

generating and storing event resources and action resources corresponding to the downstream hardware equipment according to the fed back information; the downstream hardware equipment is directly or indirectly accessed to the cloud end;

responding to the input of the Internet of things module or the input of upstream application equipment accessed to the cloud platform, calling and processing the event resources and the action resources, and forming an application by combining a user-defined condition; when the application enters a monitoring running state, driving corresponding actions specified by the application according to the application and real-time data of downstream hardware equipment when a triggering condition of the application is met:

the corresponding action includes at least one of:

controlling the corresponding first type equipment to complete corresponding actions;

allocating and managing available cloud computing resources of the corresponding third type of equipment;

transmitting real-time data of corresponding first-class equipment, second-class equipment and third-class equipment to a designated position;

the cloud computing module is at least to:

allocating and managing the cloud computing resources available for the third type of equipment according to preset logic, external operation or an instruction fed back by the big data module;

the Internet of things module is used for responding to external input and feeding back the external input to the big data module, so that the big data module can realize application formation according to the input.

Based on the above, referring to fig. 3, the present invention provides an application service method for a cloud smart city, including:

responding to external input or input of upstream application equipment accessed to the cloud platform, calling and processing event resources and action resources obtained based on downstream hardware equipment, and forming an application by combining with the custom attribute so as to form application resources corresponding to the application resources; through the activation operation of the application resource, the corresponding application can enter a monitoring operation state;

responding to the input of the upstream application equipment, and providing a platform interface for the upstream application equipment, wherein the platform interface provides an acquisition operation channel of each application resource;

responding to the feedback of entering the acquisition operation channel and completing the acquisition operation in the upstream application equipment, and calling the corresponding application resource by the corresponding upstream application equipment.

In most alternative embodiments of the present invention, the acquisition operation is a purchase operation. This provides the technical basis of business operation for the application service of the smart city, in other words, not only can the sharing of the application be realized, but also the business operation based on the sharing becomes possible.

In an optional embodiment of the present invention, before responding to the input of the upstream application device, the method further includes opening the resource of the cloud to the upstream application device through a programming language interface, so that the resource can be called through different programming language interfaces. Specifically, sdk (software development kit) for accessing the cloud system is provided externally, and through the sdk, upstream application equipment in the smart city can access each module of the system, use functions of the system, such as creating a virtual machine, interacting with other applications, using big data analysis services, and the like.

Corresponding to the application service method of the cloud smart city described above, the invention further provides an application service system of the cloud smart city, which conforms to all the explanations above.

Specifically, the method comprises a big data platform and an application service platform, wherein:

the big data platform is used for:

responding to external input or input of upstream application equipment accessed to the cloud platform, calling and processing event resources and action resources obtained based on downstream hardware equipment, and forming an application by combining with the custom attribute so as to form application resources corresponding to the application resources; through the activation operation of the application resource, the corresponding application can enter a monitoring operation state;

the application service platform is used for:

responding to the input of the upstream application equipment, and providing a platform interface for the upstream application equipment, wherein the platform interface provides an acquisition operation channel of each application resource;

the big data platform is further to:

and responding to the feedback of entering the acquisition operation channel in the upstream application equipment and finishing the acquisition operation through the application service platform, and transmitting the corresponding application resource to the corresponding upstream application equipment.

Optionally, the acquiring operation is a purchasing operation.

Optionally, the downstream hardware device includes at least two of a first type device capable of being controlled to perform actions, a second type device capable of collecting external information and feeding back, and a third type device operating by using cloud computing resources; and the downstream hardware equipment is directly or indirectly connected with the cloud.

Optionally, when the application enters the monitoring operation state, the big data module is further configured to drive, according to the application and the real-time data of the downstream hardware device, a corresponding action specified by the application when the triggering condition of the application is met:

the corresponding action includes at least one of:

controlling the corresponding first type equipment to complete corresponding actions;

allocating and managing available cloud computing resources of the corresponding third type of equipment;

and transmitting the real-time data of the corresponding first class equipment, second class equipment and third class equipment to the designated position.

Optionally, the application service system of the cloud smart city further includes a service platform layer, which is used for opening the resources of the cloud to the upstream application device through the programming language interface, so that the resources of the cloud can be called through different programming language interfaces.

The invention firstly opens the action resource and the event resource to the outside, thereby freely forming the application resource, and further, the application resource in the invention can be called by each upstream application device, thereby completing the intercommunication of the application and ensuring that the application is not limited by any platform. The problem of insufficient utilization of resources caused by an application island and a data island is solved.

Claims (4)

1. An application service method of a cloud smart city is characterized in that: the method comprises the following steps:

responding to external input or input of upstream application equipment accessed to the cloud platform, calling and processing event resources and action resources obtained based on downstream hardware equipment, and forming an application by combining with the custom attribute so as to form application resources corresponding to the application resources; through the activation operation of the application resource, the corresponding application can enter a monitoring operation state;

the downstream hardware equipment comprises first equipment which can be controlled to act, second equipment which can collect external information and feed back the external information, and third equipment which runs by using cloud computing resources; the event resource corresponds to the state fed back by the first type of equipment, the information acquired by the second type of equipment and the current cloud computing resource condition used by the third type of equipment; the action resources respectively correspond to action instructions of the first type of equipment, instructions for allocating cloud computing resources available for the third type of equipment, and instructions for transmitting real-time data of the corresponding first type of equipment, second type of equipment and third type of equipment to a specified position; the downstream hardware equipment is directly or indirectly accessed to the cloud end;

when the application enters a monitoring running state, driving corresponding actions specified by the application according to the application and real-time data of downstream hardware equipment when a triggering condition of the application is met:

the corresponding actions include the following:

controlling the corresponding first type equipment to complete corresponding actions;

allocating and managing available cloud computing resources of the corresponding third type of equipment;

transmitting real-time data of corresponding first-class equipment, second-class equipment and third-class equipment to a designated position;

opening the resources of the cloud to the upstream application equipment through a programming language interface, enabling the resources to be called through different programming language interfaces, responding to the input of the upstream application equipment, and providing a platform interface for the upstream application equipment, wherein the platform interface provides an acquisition operation channel of each application resource;

responding to the feedback of entering the acquisition operation channel and completing the acquisition operation in the upstream application equipment, and calling the corresponding application resource by the corresponding upstream application equipment.

2. The cloud smart city application service method of claim 1, wherein: the obtaining operation is a purchasing operation.

3. The utility model provides an application service system in high in clouds wisdom city which characterized in that: including big data platform and application service platform, wherein:

the big data platform is used for:

responding to external input or input of upstream application equipment accessed to the cloud platform, calling and processing event resources and action resources obtained based on downstream hardware equipment, and forming an application by combining with the custom attribute so as to form application resources corresponding to the application resources; through the activation operation of the application resource, the corresponding application can enter a monitoring operation state;

the application service platform is used for:

responding to the input of the upstream application equipment, and providing a platform interface for the upstream application equipment, wherein the platform interface provides an acquisition operation channel of each application resource;

the big data platform is further to:

responding to the feedback of entering an acquisition operation channel in the upstream application equipment and completing the acquisition operation through the application service platform, and transmitting the corresponding application resource to the corresponding upstream application equipment;

the downstream hardware equipment comprises first equipment which can be controlled to act, second equipment which can collect external information and feed back the external information, and third equipment which runs by using cloud computing resources; the event resource corresponds to the state fed back by the first type of equipment, the information acquired by the second type of equipment and the current cloud computing resource condition used by the third type of equipment; the action resources respectively correspond to action instructions of the first type of equipment, instructions for allocating cloud computing resources available for the third type of equipment, and instructions for transmitting real-time data of the corresponding first type of equipment, second type of equipment and third type of equipment to a specified position, wherein the downstream hardware equipment is directly or indirectly connected to the cloud end;

when the application enters a monitoring operation state, the big data platform is further used for driving corresponding actions specified by the application according to the application and real-time data of downstream hardware equipment when a triggering condition of the application is met:

the corresponding actions include the following:

controlling the corresponding first type equipment to complete corresponding actions;

allocating and managing available cloud computing resources of the corresponding third type of equipment;

transmitting real-time data of corresponding first-class equipment, second-class equipment and third-class equipment to a designated position;

the cloud application device further comprises a service platform layer which is used for opening the resources of the cloud to the upstream application device through the programming language interface, so that the resources of the cloud can be called through different programming language interfaces.

4. The cloud smart city application service system of claim 3, wherein: the obtaining operation is a purchasing operation.