CN111400640A - Station address holographic information management system, construction method and construction device - Google Patents

Abstract

The invention provides a station address holographic information management system, a construction method and a construction device, wherein the station address holographic information management system comprises: the system comprises a site management layer, a link layer and a plurality of service layers, wherein the site management layer is connected with the link layer; the link layer is connected with the plurality of service layers, and the plurality of service layers comprise: at least one of a communication service station address extension information layer, an intelligent connection service station address extension information layer and an energy service station address extension information layer. Therefore, the station address holographic information management system comprises a plurality of service layers, and the types of the service layers are more diversified, so that the management requirements of services can be met, and the management effect of the services is enhanced.

Description

Station address holographic information management system, construction method and construction device

Technical Field

The invention relates to the technical field of communication, in particular to a station address holographic information management system, a construction method and a construction device.

Background

The existing site model is designed based on site renting business of communication operators at the beginning of establishment of iron tower companies. Iron tower companies gradually begin to explore other industries for serving communication sites in addition to communication, develop spatial location services, and try to integrate more social sites to develop wide application of the internet of things; in addition, various energy services are developed by means of a large amount of storage battery resources accumulated by communication sites. The existing site model cannot adapt to the business diversification transformation and the integration and utilization of social sites.

Disclosure of Invention

The embodiment of the invention provides a station address holographic information management system, a construction method and a construction device, which aim to solve the limitation of a current station address model on the multi-service management effect.

In order to solve the technical problem, the invention is realized as follows:

in a first aspect, an embodiment of the present invention provides a station holographic information management system, including:

a site management layer;

the site management layer is connected with the link layer;

a plurality of business layers, the link layer connected to the plurality of business layers, the plurality of business layers comprising: at least one of a communication service station address extension information layer, an intelligent connection service station address extension information layer and an energy service station address extension information layer.

Optionally, the number of the link layers is multiple, each service layer corresponds to one link layer, and the site management layer is connected to each service layer through the corresponding link layer.

Optionally, the site management layer includes at least one of an administrative management layer, a site basic information management layer, and an organization management layer.

In a second aspect, an embodiment of the present invention provides a method for constructing a station holographic information management system, where the method is used to construct the station holographic information management system, and the method includes:

acquiring station address parameter information;

and constructing a station address holographic information management system according to the station address parameter information.

Optionally, the station address parameter information includes: at least one of form information of the site, use information of the site, source information of the site, state information of the site, and management subject information of the site.

Optionally, when the station address parameter information includes: the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management subject information of the site; the method for constructing the station address holographic information management system according to the station address parameter information comprises the following steps:

constructing a first information management system according to the purpose information of the station address;

analyzing the association relation between each information of the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management main body information of the site and the use information of the site;

and constructing the station address holographic information management system on the basis of the first information management system according to the incidence relation.

In a third aspect, an embodiment of the present invention further provides a station holographic information management system construction apparatus, configured to construct the station holographic information management system, where the station holographic information management system construction apparatus includes:

the acquisition module is used for acquiring the station address parameter information;

and the construction module is used for constructing the station address holographic information management system according to the station address parameter information.

Optionally, the station address parameter information includes: at least one of form information of the site, use information of the site, source information of the site, state information of the site, and management subject information of the site.

Optionally, when the station address parameter information includes: the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management subject information of the site;

the building module comprises:

the first construction submodule is used for constructing a first information management system according to the purpose information of the station address;

the analysis submodule is used for analyzing the association relationship between each piece of information in the form information of the station address, the use information of the station address, the source information of the station address, the state information of the station address and the management main body information of the station address and the use information of the station address;

and the second construction submodule is used for constructing the station address holographic information management system on the basis of the first information management system according to the incidence relation.

In the embodiment of the present invention, a station holographic information management system includes: the system comprises a site management layer, a link layer and a plurality of service layers, wherein the site management layer is connected with the link layer; the link layer is connected with the plurality of service layers, and the plurality of service layers comprise: at least one of a communication service station address extension information layer, an intelligent connection service station address extension information layer and an energy service station address extension information layer. Therefore, the station address holographic information management system comprises a plurality of service layers, and the types of the service layers are more diversified, so that the management requirements of services can be met, and the management effect of the services is enhanced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments of the present invention will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a station holographic information management system according to an embodiment of the present invention;

fig. 2 is a flowchart of a method for constructing a station holographic information management system according to an embodiment of the present invention;

FIG. 3 is a flow chart of another method for constructing a holographic information management system for a site according to an embodiment of the present invention;

fig. 4 is a schematic diagram of information statistics in another method for constructing a station holographic information management system according to an embodiment of the present invention:

fig. 5 is a second schematic diagram of information statistics in another method for constructing a station holographic information management system according to the embodiment of the present invention:

fig. 6 is a third schematic diagram of information statistics in another method for constructing a station holographic information management system according to the embodiment of the present invention:

fig. 7 is a fourth schematic diagram of information statistics in another method for constructing a station holographic information management system according to the embodiment of the present invention:

fig. 8 is a fifth schematic diagram of information statistics in another method for constructing a station holographic information management system according to the embodiment of the present invention:

fig. 9 is a schematic structural diagram of a station holographic information management system construction apparatus according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a station holographic information management system according to an embodiment of the present invention, and as shown in fig. 1, the station holographic information management system includes:

a site management layer 101;

a link layer 102, the site management layer 101 being connected to the link layer 102;

a plurality of business layers 103, wherein the link layer 102 is connected to the plurality of business layers 103, and the plurality of business layers 103 comprises: at least one of a communication service station address extension information layer, an intelligent connection service station address extension information layer and an energy service station address extension information layer.

In the embodiment of the present invention, the types of the plurality of service layers are not limited to the above, and may be increased according to the needs of the user. Of course, with the increase of service types and the gradual expansion of the operation range, a new service layer can be added in the station holographic information management system.

For example: the access interface of a part of service layers can be reserved in the station address holographic information management system, so that when a new service layer needs to be added, the new service layer can be directly connected with the access interface of the reserved service layer, and the purpose of accessing the new service layer is achieved.

Of course, the specific type of adding a new service layer is not limited herein.

It should be noted that the relationship among the service layers may be parallel, that is, one link layer may be connected to the service layers, so that the purpose of parallel connection of the service layers may be achieved, and the use cost is also saved.

Of course, as another optional implementation manner, the number of the link layers is multiple, each service layer corresponds to one link layer, and the site management layer is connected to each service layer through the corresponding link layer.

Therefore, each service layer corresponds to one link layer, and compared with the mode that one link layer is connected with a plurality of service layers respectively, the method can avoid the phenomenon that all service layers cannot operate when the link layers break down, and enhances the stability and the anti-interference capability of the station holographic information management system. In addition, each service layer corresponds to one link layer, so that the requirement on network resources occupied by all the service layers is low, and the use cost of the network resources is further reduced.

Optionally, the site management layer includes at least one of an administrative management layer, a site basic information management layer, and an organization management layer.

The administrative management layer, the station site basic information management layer and the organization management layer can be used for managing the station site holographic information management system so as to ensure the normal operation of various functions of the station site holographic information management system.

In the embodiment of the invention, the station address management layer comprises at least one of an administrative management layer, a station address basic information management layer and an organization management layer, so that the normal operation of various functions of the station address holographic information management system can be ensured.

In the embodiment of the present invention, a station holographic information management system includes: the system comprises a site management layer, a link layer and a plurality of service layers, wherein the site management layer is connected with the link layer; the link layer is connected with the plurality of service layers, and the plurality of service layers comprise: at least one of a communication service station address extension information layer, an intelligent connection service station address extension information layer and an energy service station address extension information layer. Therefore, the station address holographic information management system comprises a plurality of service layers, and the types of the service layers are more diversified, so that the management requirements of services can be met, and the management effect of the services is enhanced.

Referring to fig. 2, fig. 2 is a flowchart of a method for constructing a station holographic information management system according to an embodiment of the present invention. As shown in fig. 2, the method comprises the following steps:

step 201, obtaining the site parameter information.

The type of the station address parameter information is not limited herein, for example: the station address parameter information may include: at least one of form information of the site, use information of the site, source information of the site, state information of the site, and management subject information of the site.

The form information of the site may refer to position information of the site, for example: the station sites comprise ground stations, floor stations, point stations, tunnel stations, indoor stations or virtual stations and the like.

The usage information of the site may include: namely, services which can be realized by a plurality of service layers required by the station holographic information management system.

The source information of the site may include: the property attribution of the site is a dividing principle, and the site can be divided into a self-owned site (namely, a management company of the site is built by itself) and a social site (namely, the management company is built by other companies and handed over to the site).

The state information of the station address may include: i.e. different states exist for the life cycle of different sites, for example: the station address has various states of planning, demand, successful site selection, design, construction, network connection, service connection, station dismantling freezing, item selling, cancelled and the like.

The management subject information of the site may include: the manager of the site, i.e. the principal unit of the site, for example: the principal units of current sites mainly comprise three companies such as iron towers, intelligent union and energy.

The station address in the present embodiment can be understood as a station address hologram information management system.

In the embodiment of the invention, the station address parameter information comprises: at least one item of the shape information of the station address, the use information of the station address, the source information of the station address, the state information of the station address and the management main body information of the station address, therefore, the holographic information management system of the station address can be constructed according to various parameter information (also called as multiple dimensions) of the station address, the function of the holographic information management system of the station address is more perfect, and the management effect of the holographic information management system of the station address can be enhanced.

It should be noted that the embodiment of the present invention may be applied to a station holographic information management system construction device, and the station holographic information management system construction device may be an electronic device.

In addition, the station address parameter information may be information input by the user, and of course, the station address parameter information may also be automatically acquired.

Of course, the types of the station address parameter information are not limited to the above, and for example: the station address parameter information may further include station address identification information, station address adjustment information, station address contents information, and other information.

Step 202, building a station address holographic information management system according to the station address parameter information.

Optionally, when the station address parameter information includes: the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management subject information of the site; the method for constructing the station address holographic information management system according to the station address parameter information comprises the following steps:

constructing a first information management system according to the purpose information of the station address;

analyzing the association relation between each information of the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management main body information of the site and the use information of the site;

and constructing the station address holographic information management system on the basis of the first information management system according to the incidence relation.

The association relationship between each of the form information of the site, the use information of the site, the source information of the site, the state information of the site, and the management subject information of the site and the use information of the site may be referred to as a cascade relationship, an anchor relationship, or the like.

In the present embodiment, the use information of the station address is prioritized, and then the station address holographic information management system is constructed according to the association relationship between the other various information and the use information, so that the station address holographic information management system can be made to focus on the use information, and in the process of constructing the station address holographic information management system, other management systems that do not have practicability and are obtained due to the prioritized consideration of the other information are excluded. Meanwhile, the construction efficiency of the station address holographic information management system is also enhanced.

In the embodiment of the present invention, through step 201 and step 202, a station address holographic information management system with a good management effect can be constructed.

The following describes an example of a process for constructing a station holographic information management system in a specific embodiment:

step 301, combing station address basic information: according to a single attribute principle, the station address attribute represented by the split dimension is absolutely single, and attribute superposition is carried out through combination of the dimensions; the carding station address is fixed or changed little, and the physical attribute information is used for completing the attribute and dictionary value analysis of various information.

The station address in this embodiment may be the station address holographic information management system in the above embodiment.

Wherein, the category of the basic information (i.e. the station address parameter information in the above embodiment) is defined as follows: the system mainly comprises station address identification information, management subject information, station address position information, station address adjustment information, station address accommodating object information, station address form scene information, other information and the like. Details of the site base information are shown in fig. 4.

Wherein the management agent (i.e. the management agent information for the site) defines (management agent dimension): according to the main company, the intelligent union and the energy two subsidiary companies contained in the current iron tower company and the development of future business, a management main body is introduced to determine the principal and responsible unit of the station address. The management subject of the site is uniquely confirmed by the attribution organization of the anchoring business (namely the business type of the initial service provided by the site), and the management subject is provided with an iron tower company, an intelligent company and an energy company and is recorded in the attribute of the 'attribution organization'. When the anchor business is hosted primarily by partners, "partner" attributes are recorded at the same time.

Wherein, the site shape (i.e. the shape information of the site) defines (shape dimension): the method is characterized in that a single form dimension is set to directly and completely describe the station site form by combining the requirements of external management and internal management, and the station site form is divided into a ground station, a floor station, a point station, a tunnel station, an indoor station and a virtual station according to the division principle of point, line, surface and body and recorded in the attribute of the station site type. The ground station, the floor station, the point station, the tunnel station and the indoor station belong to entity stations, face outward operation and serve as corresponding real station site forms; the virtual station is oriented to internal management, mainly collects related results by means of a station address concept, has no specific form, namely management of tangible resources and intangible assets which are not in an entity station, and marks and tracks the assets through the virtual station address, such as IT project related assets, comprehensive office related assets and the like which need to be collected.

Wherein, the site scene definition: and dividing the site scene into a scene division scene and a service scene. The scene is divided into types of station site surrounding environments, mainly urban and rural areas, traffic roads, scenic spots and public places, and recorded in the 'coverage scene' attribute. The service scene is a specific place of the site under a corresponding coverage scene, and is recorded in a service scene attribute, such as county, national road, campus and the like. A detailed scene partition list.

Step 302, site source (i.e. source information of the site) combing (source dimension): in order to create the autonomous site selection capability, enhance the resource integration capability and mark the source of the site. Dividing the property attribution into a self-owned station (self-owned source) and a social station (social source) by taking the property attribution as a dividing principle, supporting and expanding a new category, and recording the new category in the attribute of 'station address source'; and simultaneously setting the attributes of source industry and source channel. The detailed site source matrix, see fig. 5.

Step 303, combing the full life cycle and the station address state (state information of the station address): and (4) combing the life cycle of the site in the whole business of the iron tower company and the corresponding site state.

Wherein the site state definition (state dimension): different states are correspondingly set according to different stages of the life cycle of the site, and the states are used for describing the life cycle stage of the site of the entity so as to implement different management aiming at the different stages. The method comprises the following specific steps: planning, demand, successful site selection, design, building, networking, serving, freezing after site removal, selling items, logging out, supporting and expanding a new state, and recording the new state in the attribute of the site state.

Wherein, full life cycle combing: the division of the stages contained in the full life cycle of the site from beginning to end is as follows:

site planning (State: planning)

Station address requirement (State requirement)

Site selection (status: successful site selection)

Site construction (State: design, under construction)

Use in the net (state: in the net, in the clothes)

Frozen station (state: waiting for logout)

Station address logout (State: sales item)

Sales item (State: logged off)

Note: the site has direct item selling condition in each stage before the construction is completed.

Wherein, the life cycle analysis of different source sites: the source of the site is divided into a self-owned station and a social station, and the actual life cycle is different according to the difference of the source. The station address handed over by the telecom operator in the self station is directly put into use after once batch handover, and is in an on-network state; the self-building site in the self-owned station needs to go through the whole life cycle from planning or demand; after being determined by protocols (social site leasing, protocol replacement and free use management), various source stations of the social station are directly put into use and are in an online state.

Step 304, association with the business system (which can also be understood as life cycle information of the site) combing: service information interaction with each service system is combed;

wherein, the successful stage of address selection: after address selection is successful in address selection and protocol negotiation, site lease initiation is required, and lease information of a site is established in a property system;

wherein, the station site construction stage: before starting station site construction, initiating construction project establishment in a PMS (permanent magnet synchronous Motor) system, and establishing construction project information; when the construction is completed, the exchange of materials and the fixation are required, the material information is converted into the fixed asset information and is pushed to a financial system to form financial information;

wherein, in the stage of using the network: after the site is in the network, opening various services on the site, and establishing service information in a CRM system; in the use process of the station, operation and maintenance work needs to be carried out, and maintenance information is established in an operation and maintenance system;

wherein, the item pinning stage: when the station is cancelled, the station is required to be leased on site first, the leased lease is processed in the property system, then the asset is scrapped, and the fixed asset report processing is carried out in the financial system.

Step 305, site service (i.e. site usage information) combing (usage dimension): the design of the station address needs to meet the requirements of external management and supporting service and internal management and collection service. The service types borne by the station sites comprise communication service types, intelligent connection service types and energy service types, and comprise virtual storage types, production materials types, IT types, innovation types and office comprehensive types, and are recorded in the attribute of the service type; subdividing the service subclasses under each service type, and recording the service subclasses in the attribute of the service subclasses; based on the two-wing business pattern of the iron tower company, the business types and business subclasses borne by the site can be overlapped so as to reflect the shared use condition of the site in different business scenes.

When the station address bears the grouping service for internal management, related services for managing grouping by means of the station address concept are marked, for example, a virtual warehouse is used for managing and tracking operation materials when the virtual warehouse is suitable for intelligent and energy services, a production material is suitable for managing and tracking materials and idle assets of communication services, and the IT type, innovation type and office comprehensive type meet the internal management requirements of a company to perform corresponding asset grouping and tracking management. Detailed traffic types, see fig. 6.

Step 306, analyzing service type cascade (i.e. association relationship between various types of information and use information of the site): the method comprises the steps of the cascade analysis of the site type and the service type, the cascade analysis of the anchoring service and the management main body

Wherein, the cascade analysis of the site type and the service type is as follows: the actual supportable service is based on the site form (recorded as site type), the cascade matrix of site type and service type is combed out, and the data is normalized to conform to the actual service situation, which is shown in detail in fig. 7. If the station address type is a tunnel station, the service type can only select a communication service type, an intelligent connection service type and an energy service type; if the service type is determined as the communication service class, the service class can only select the tunnel class room class.

Wherein, the anchoring service and management subject cascade analysis: the management entity is confirmed according to the home organization of the site anchor service, and a cascade matrix of the anchor service and the management entity is formed through combing, which is shown in detail in fig. 8. And if the anchoring service is a communication service class, the management subject is an iron tower company.

Step 307, constructing a station address holographic information model: and integrating the station address basic information, the station address source, the station address full life cycle and state and the station address associated service information analyzed in the steps, and designing to form a station address holographic information model covering five dimensions of form, use, source, state and management main body. The site basic information is managed uniformly, the service information is recorded in detail in each service system and is associated through site unique identification attributes (site codes), and the site data model effect of 1 dragging N key strings with the site as the center is achieved. According to the model thought, according to the actual situation that the same site can support and associate various services, a link layer concept is introduced, the link layer records various services (only records the service types) borne by the site, a relational model of site basic information-site link information-site service information is formed, and a detailed site-link-service structure diagram is shown in figure 1.

In the embodiment of the invention, through steps 301 to 307, a station address holographic information management system with a good management effect can be constructed.

Referring to fig. 9, fig. 9 is a schematic structural diagram of a station holographic information management system construction apparatus according to an embodiment of the present invention, configured to construct the station holographic information management system, as shown in fig. 3, where the station holographic information management system construction apparatus 900 includes:

an obtaining module 901, configured to obtain station address parameter information;

and a constructing module 902, configured to construct a station address holographic information management system according to the station address parameter information.

Optionally, the station address parameter information includes: at least one of form information of the site, use information of the site, source information of the site, state information of the site, and management subject information of the site.

Optionally, when the station address parameter information includes: the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management subject information of the site;

the building module comprises:

the first construction submodule is used for constructing a first information management system according to the purpose information of the station address;

the analysis submodule is used for analyzing the association relationship between each piece of information in the form information of the station address, the use information of the station address, the source information of the station address, the state information of the station address and the management main body information of the station address and the use information of the station address;

and the second construction submodule is used for constructing the station address holographic information management system on the basis of the first information management system according to the incidence relation.

In the embodiment of the invention, a station address holographic information management system with better management effect can be constructed.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (9)

1. A site holographic information management system, comprising:

a site management layer;

the site management layer is connected with the link layer;

a plurality of business layers, the link layer connected to the plurality of business layers, the plurality of business layers comprising: at least one of a communication service station address extension information layer, an intelligent connection service station address extension information layer and an energy service station address extension information layer.

2. The holographic site information management system of claim 1, wherein the number of the link layers is plural, each service layer corresponds to one link layer, and the site management layer is connected with each service layer through the corresponding link layer.

3. The holographic site information management system of claim 1, wherein the site management layer comprises at least one of an administrative layer, a site base information management layer, and an organizational management layer.

4. A method for constructing a holographic site information management system, the method being used for constructing the holographic site information management system according to any one of claims 1 to 3, the method comprising:

acquiring station address parameter information;

and constructing a station address holographic information management system according to the station address parameter information.

5. The method of claim 4, wherein the site parameter information comprises: at least one of form information of the site, use information of the site, source information of the site, state information of the site, and management subject information of the site.

6. The method of claim 5, wherein the site parameter information comprises: the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management subject information of the site; the method for constructing the station address holographic information management system according to the station address parameter information comprises the following steps:

constructing a first information management system according to the purpose information of the station address;

analyzing the association relation between each information of the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management main body information of the site and the use information of the site;

and constructing the station address holographic information management system on the basis of the first information management system according to the incidence relation.

7. A site holographic information management system constructing apparatus for constructing the site holographic information management system according to any one of claims 1 to 3, the site holographic information management system constructing apparatus comprising:

the acquisition module is used for acquiring the station address parameter information;

and the construction module is used for constructing the station address holographic information management system according to the station address parameter information.

8. The site holographic information management system construction apparatus of claim 7, wherein the site parameter information includes: at least one of form information of the site, use information of the site, source information of the site, state information of the site, and management subject information of the site.

9. The site holographic information management system construction apparatus of claim 8, wherein when the site parameter information includes: the form information of the site, the use information of the site, the source information of the site, the state information of the site and the management subject information of the site;

the building module comprises:

the first construction submodule is used for constructing a first information management system according to the purpose information of the station address;

the analysis submodule is used for analyzing the association relationship between each piece of information in the form information of the station address, the use information of the station address, the source information of the station address, the state information of the station address and the management main body information of the station address and the use information of the station address;

and the second construction submodule is used for constructing the station address holographic information management system on the basis of the first information management system according to the incidence relation.

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