CN112036592A

CN112036592A - Business management method and device of intelligent multifunctional pole facility

Info

Publication number: CN112036592A
Application number: CN202010807954.9A
Authority: CN
Inventors: 陈天奇
Original assignee: Fiberhome Telecommunication Technologies Co Ltd
Current assignee: Fiberhome Telecommunication Technologies Co Ltd
Priority date: 2020-08-12
Filing date: 2020-08-12
Publication date: 2020-12-04

Abstract

The invention discloses a service management method and a device of intelligent multifunctional pole facilities, relating to the technical field of intelligent infrastructure network management.A service model is established by synchronizing resource data of facilities, equipment configuration and the like of an intelligent multifunctional pole resource management system; loading corresponding facility resources on the GIS map according to the service type; after a customer selects facility resources through a GIS map, a pole position or equipment can be determined through a pole body two-dimensional plane map, and then a service order is submitted; the device automatically schedules and allocates the service resources required by reservation for the batch pre-order according to the customer grade, the resource number, the service characteristics and the like, and informs the customer that the electronic contract can be signed after the scheduling is finished; after the customer signs the electronic contract, the device will automatically activate the corresponding service and start charging. The method and the device provided by the invention provide a normative management flow for the efficient execution of the intelligent multifunctional pole service operation specification, and improve the efficiency of service opening and maintenance.

Description

Business management method and device of intelligent multifunctional pole facility

Technical Field

The invention relates to the technical field of intelligent infrastructure network management, in particular to a service management method and device of an intelligent multifunctional pole facility.

Background

As an important infrastructure of a smart city, smart multifunctional pole facilities are widely distributed on urban roads, have continuous power supply and have Internet of things control such as Ethernet, NB-IOT, 4G, LORA and the like. The intelligent multifunctional rod facility comprises a rod body, a rod position and equipment in a spatial structure; wherein, a pole position where equipment can be arranged is reserved on the pole body. The pole position is designed according to technical indexes such as bearing, power supply and the like, and can be provided with equipment such as an intelligent street lamp, a camera, an LED information screen, a one-key distress call, a broadcasting system, a microclimate station and the like. Currently, management of resource data of smart multi-function sticks has been implemented.

The existing resource management system of the intelligent multifunctional rod supports basic functions of facility equipment configuration, information acquisition, command control, alarm monitoring, work order management and the like; the system provides a north interface for the outside, and supports the data acquisition of facility equipment, the asset state query setting of pole position equipment, the issuing of equipment control commands, the alarm query of equipment and the like.

In the existing resource management system of the intelligent multifunctional rod facility, scattered information related to services is decomposed into objects such as facilities, equipment configuration items and the like, but the system lacks of service characteristic definition, service classification, service resource distinguishing and scheduling, service activation and deactivation and service charging oriented to service management; in addition, the consumption relationship between the client and the service is not clear, and the client operation for consuming the service is lacked.

Furthermore, the existing resource management system of the intelligent multifunctional pole facility only manually drives the flow and discretely configures partial service data due to the lack of a perfect service model for the service operation of the intelligent multifunctional pole and an automatic integrated service flow management, so that the subsequent query and modification difficulty is large, the data integrity is low, and the service opening efficiency is low; in addition, the management of the contract relationship between the client and the business is lacked, the process of the necessity of the client operation is lacked, and the good consumption relationship of the client to the business is not easy to construct.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a service management method and a service management device of an intelligent multifunctional rod facility, so that the service opening and maintenance efficiency is improved.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: a business management method of intelligent multifunctional pole facilities comprises the following steps:

the service management back-end module acquires facility operation and maintenance data from the intelligent multifunctional rod resource management system and stores the facility operation and maintenance data as service resource cache data;

the client selects the service type in the application front-end module, and displays the corresponding service resource on the GIS map; the client selects service resource data corresponding to the service type on the GIS map, and submits service application form data to the service management back-end module;

the service management back-end module performs scheduling distribution of service resources corresponding to the service application form in batches;

the application front-end module confirms the scheduling result of the service resource, signs a contract and submits the contract to the service management back-end module; and the service management back-end module activates the service and performs service charging management.

On the basis of the technical scheme, the facility operation and maintenance data comprise facilities, pole positions, equipment and equipment configuration.

On the basis of the technical scheme, the method specifically comprises the following steps of selecting the service type by using the front-end module and displaying the corresponding service resource on the GIS map:

initiating a service reservation application and selecting a service type in an application front-end module;

acquiring a set R of cached intelligent multifunctional rod service resource objects corresponding to service types;

creating a GIS map container object;

traversing the set R of the intelligent multifunctional rod service resource objects cached, selecting the intelligent multifunctional rod service resource object R which accords with the service type selected by the application front-end module, and generating a set S of service resources;

creating a page, and loading a set S of business resources into a GIS map container after loading a GIS map container object in the page;

rendering each object r in the set S of the service resources in a GIS map container according to the longitude and latitude of the service resource cache object in the set S of the service resources;

creating an example of a map address resolution component, and calling the example of the map address resolution component to calculate a set N of intelligent multifunctional rod business resource objects within a radius r 0;

calling a map container, and re-rendering the set N to the GIS map according to the longitude and latitude of each element in the set N;

determining a pole position or equipment through a two-dimensional plane graph of the pole body, and selecting the objects in the set N according to the geographical position of the service to be launched to obtain a set N';

assigning the set N' to a set S of service resources corresponding to the service type;

and updating the set A of the application service resources of the cache application front-end module by using the set S of the service resources corresponding to the service type, so that the state of each element of the set A is selected and to be reserved.

On the basis of the technical scheme, the service management back-end module performs scheduling distribution of service resources corresponding to the service request form in batches, and the method specifically comprises the following steps;

screening out the service resources to be allocated related to the application form from the database;

classifying according to the customer grade, and sorting from high to low according to the priority;

in the same customer level, sorting the corresponding service resources from large to small;

and making a charging strategy according to the client grade and the quantity of the corresponding service resources.

On the basis of the technical scheme, the method for confirming the scheduling result of the service resource and signing the contract by using the front-end module specifically comprises the following steps:

the client application front-end module receives the prompt that the business application form is successfully scheduled and a contract is to be signed;

sending HTTP request message to a contract management unit of a service back-end management module, and inquiring a set of all established contract objects associated with the current client name;

the client checks the service name, the service type, the service execution starting time, the service execution ending time, the client name and the service resource list of the contract object;

if the examination is passed, assigning the contract object state as signing;

and sending a service contract signing request to the service back end management module gateway through an HTTP (hyper text transport protocol) by taking the contract object as a parameter.

On the basis of the technical scheme, the service management back-end module performs service charging management, and specifically comprises the following steps:

extracting a client name and the number of service resources from the service application form;

inquiring the identity card number, the geographic position and the grade of the client according to the name of the client;

selecting a charging strategy according to the client grade and the number of the service resources, setting the charging starting time, and starting charging from the set charging starting time;

and after the service is deactivated, automatically stopping service charging.

The invention also provides a business management device of the intelligent multifunctional rod facility, which comprises a service management back-end module, a database and an application front-end module;

the service management back-end module is to: acquiring facility operation and maintenance data from the intelligent multifunctional rod resource management system and transferring the facility operation and maintenance data into service resource cache data;

the application front end module is to: the client selects the service type; displaying corresponding business resources on a GIS map; the client selects the business resource data corresponding to the business type on the GIS map and submits the business application form data to the service management back-end module;

the service management back-end module is further configured to: scheduling and distributing service resources corresponding to the service application forms in batches;

the database is configured to: storing service application form, service resource, contract, service, equipment configuration and service cost data received by a service management back-end module;

the application front-end module is further configured to: the client confirms the scheduling result of the service resource, signs a contract and submits the contract to the service management back-end module;

the service management back-end module is further configured to: and activating the service and performing service charging management.

On the basis of the technical scheme, the application front-end module comprises a service browsing unit, an attention management unit, an approval management unit and a service inquiry unit;

the service browsing unit is used for: the client browses the service information provided by the intelligent service management back-end module;

the attention management unit is used for: the client selects the business resource data on the GIS map and submits the business application data to the service management back-end module; signing a contract and submitting the contract to a service management back-end module;

the approval management unit is used for: for confirming the qualification of the customer application service;

the service inquiry unit is used for: and displaying the corresponding business object on the GIS map according to the selected one or more business types.

On the basis of the above technical solution, the service management back-end module includes: the system comprises a client management unit, a service management unit, a contract management unit and a charge management unit;

the client management unit is used for: storing and inquiring customer data, wherein the customer data comprises a customer name, a customer telephone number, a customer qualification file and a legal identity card number;

the service management unit is used for: service inquiry, service application, service creation, resource scheduling, service contract notification and service activation deactivation are carried out;

the contract management unit is used for: contract signing and contract monitoring are carried out;

the fee management unit is used for: and after the service is activated, carrying out service charging management.

On the basis of the technical scheme, the service management back-end module and the application front-end module perform communication interaction by adopting an HTTP (hyper text transport protocol) protocol through the application gateway;

the service management back-end module performs data interaction with a database through a database interface;

the service management back-end module is in communication interaction with the intelligent multifunctional pole resource management system through a northbound interface service;

the service management back-end module is in communication interaction with a third-party pushing system through a third-party system interface;

all units of the service management back-end module are synchronously called through an HTTP (hyper text transport protocol);

and all units of the service management back-end module realize asynchronous communication through a message bus.

Compared with the prior art, the invention has the advantages that:

according to the invention, a service model is established through resource data of facilities, equipment configuration and the like of the synchronous intelligent multifunctional rod resource management system; loading corresponding facility resources on the GIS map according to the service type; after a customer selects facility resources through a GIS map, a pole position or equipment can be determined through a pole body two-dimensional plane map, and then a service order is submitted; the device automatically schedules and allocates the service resources required by reservation for the batch pre-order according to the customer grade, the resource number, the service characteristics and the like, and informs the customer that the electronic contract can be signed after the scheduling is finished; after the customer signs the electronic contract, the device will automatically activate the corresponding service and start charging. The method and the device provided by the invention provide a normative management flow for the efficient execution of the intelligent multifunctional pole service operation specification, and improve the efficiency of service opening and maintenance.

Drawings

FIG. 1 is a flow chart illustrating a method for managing services of an intelligent multifunctional pole facility according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a business management device of the intelligent multifunctional pole facility according to the embodiment of the invention;

fig. 3 is a sequence diagram of service management execution according to an embodiment of the present invention;

fig. 4 is a main composition diagram of a service management back-end module according to an embodiment of the present invention.

Detailed Description

Embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of the present invention provides a method for managing services of an intelligent multifunctional pole facility, including the following steps:

The embodiment of the invention starts from scenes of using business resources of a pole position, installed equipment, equipment configuration items and the like of intelligent multifunctional pole facilities, specifies a provider (an asset owner) and a user (a customer) of the business resources, and provides four business types of pole position leasing, equipment leasing, VIP business and common business for intelligent multifunctional pole business operation.

Pole rental business features: the method comprises the steps that the non-operated pole positions of the intelligent multifunctional pole facility are used as basic resources of business, a resource provider manages pole position resources, and a client follows the index requirements of the facility to install and manage equipment on the pole positions and manage equipment configuration information.

Equipment lease service characteristics: the equipment on the intelligent multifunctional pole installed by the resource provider is not operated, and the equipment is used as basic resource for forming the service; and the client manages the equipment configuration information.

VIP business features: the unconfigured items of the equipment installed on the pole positions of the intelligent multifunctional pole serve as basic resources for forming the business. The resource provider performs management of the device configuration item information. And, the device is used only by a single customer.

Common business features: similar to VIP business features, the primary difference is that the device may be used by the multiple customers during the same time period.

And classifying the customers according to the customer consumption characteristics. The customer grades are divided into VIP customers and ordinary customers.

After determining the service characteristics to be applied, the client can visually determine the pole position or equipment on a GIS map page in combination with a two-dimensional plane graph of the pole body, reserve the intelligent multifunctional pole service resources to be released in the expected geographic range, and can submit the service management back-end module to automatically schedule and configure the resources after the service reservation application form is finished.

When timing of a timing period is finished, the device automatically extracts a batch of application forms in the period and automatically schedules and distributes service resources according to client grades, service volume and service characteristics; meanwhile, automatically matching the service charge strategy to the corresponding preset service according to the client grade, the resource batch, the quarterly strategy and the like; then, the device informs the client of the booking result and the service charge of the application form and reminds the client to sign a contract.

After the customer acquires and confirms the service booking result and the tariff strategy, the customer can submit the booked contract.

After the client submits the contract, the service related to the contract is automatically activated and the charging is started; at the termination of the contract, the service to which the contract relates is automatically deactivated and charging is stopped.

In a word, the method provides unified management of the intelligent multifunctional rod business process, and is beneficial to the standard, efficient and ordered execution of the intelligent multifunctional rod business operation activities and the maintenance of the benign interaction relationship between the business provider and the customer.

In a preferred embodiment, the facility operation and maintenance data includes facilities, pole positions, equipment, and equipment configurations.

As a preferred embodiment, selecting a service type in the application front-end module, and displaying a corresponding service resource on the GIS map specifically includes the following steps:

creating a GIS map container object;

clearing the set S, and assigning the set N' to the set S of the service resources corresponding to the service type;

As a preferred embodiment, the service management back-end module performs scheduling allocation of service resources corresponding to the service request form in batch, specifically including the following steps;

As a preferred embodiment, the method for confirming the scheduling result of the service resource and signing the contract by using the front-end module specifically includes the following steps:

if the examination is passed, assigning the contract object state as signing;

As a preferred embodiment, the service management back-end module performs service charging management, and specifically includes the following steps:

and after the service is deactivated, automatically stopping service charging.

Referring to fig. 2, an embodiment of the present invention further provides a service management apparatus for an intelligent multifunctional stick facility, including a service management back-end module, a database, and an application front-end module;

the database is configured to: storing data such as a service application form, service resources, contracts, services, equipment configuration, service cost and the like received by a service management back-end module;

As a preferred embodiment, the application front-end module comprises a service browsing unit, an attention management unit, an approval management unit and a service query unit;

As a preferred embodiment, referring to fig. 4, the service management backend module includes: the system comprises a client management unit, a service management unit, a contract management unit and a charge management unit;

the client management unit is used for: storing and querying customer data, such as customer name, customer telephone number, customer qualification file and legal identification number;

The service management back-end module further comprises a plurality of operation and maintenance interfaces, and specifically comprises: the system comprises a facility acquisition interface, an equipment acquisition interface, a region acquisition interface, an equipment configuration activation interface, an alarm acquisition interface, an equipment locking and unlocking interface and the like.

Preferably, the service management back-end module and the application front-end module perform communication interaction by adopting an HTTP (hyper text transport protocol) protocol through the application gateway;

The intelligent multifunctional rod facility business management device comprises the following initialization processes:

1) creating and initializing a database interface instance;

2) creating and initializing a message bus instance;

3) initializing a northbound interface access instance of the intelligent multifunctional rod resource management system;

4) establishing and initializing a third-party system docking interface instance; including push services, etc.;

5) establishing and initializing each service instance of the service back-end management module;

6) creating and initializing an application gateway instance;

7) creating and initializing a client application front-end instance of the intelligent multifunctional rod service;

8) creation and initialization of a business management front-end instance of a smart multi-function bar business.

Referring to fig. 3, the process of creating and initializing each service instance of the service backend management module is as follows:

1) creating and initializing a customer management unit instance;

2) establishing and initializing an expense management unit instance; starting a charging execution thread;

3) establishing and initializing a contract management unit instance; starting a service contract monitoring thread;

4) creating and initializing a service management unit instance;

5) establishing and initializing various resource caches of the intelligent multifunctional rod facility; starting a service resource cache thread;

6) various resources of the intelligent multifunctional rod facility are converted into the establishment and initialization of a unified service cache;

referring to fig. 3, the flow of the intelligent multifunctional stick business management and business execution is as follows:

1) before a customer creates an intelligent multifunctional pole service application form, screening service types;

2) a client selects a service type, and loads service resource cache data from a service back-end management module;

3) based on a GIS map, a customer selects intelligent multifunctional rod resources; determining a rod position or equipment by combining a two-dimensional plane diagram of the rod body;

4) adopting self-selected resources, inputting application condition parameters, and submitting a service reservation application form by a client;

5) based on the strategy, the service back-end management module automatically carries out the scheduling configuration of the self-selected resources;

5.1) preprocessing of self-selection service resource scheduling;

5.2) automatically sequencing similar services according to the sequence of the number of the service resources from high to low;

5.3) scheduling and configuring service resources according to the client priority;

5.4) various users apply for resource sequencing and classifying sub-processes;

5.5) matching and distributing service resources according to the application conditions;

6) based on the strategy, instantiation processing of the service charging strategy is carried out;

7) signing a service contract and carrying out charging processing;

7.1) informing the client, and signing a service contract at the application front-end module;

7.2) after signing the contract, the service back end management module automatically activates the service;

7.3) after the service is activated, automatically starting service charging;

7.4) after the service is deactivated, automatically stopping the service charging.

The establishing and initializing processes of various resource caches of the intelligent multifunctional rod facility of the service rear-end management module are as follows:

precondition:

a subject VSubSet that loads a subset of the VIP businesses of the smart multifunctional bar; creating an intelligent multifunctional rod business resource cache thread; the type of the sub-item of the VIP business service is an information model of the business sub-item;

the process comprises the following steps:

1) creating an HTTPclient object; define string type variable: a service end IP and a service port; the server IP and the service port described below are a server IP and a server port served by the northbound interface, respectively.

2) Defining a set of cache region objects; defining a set of cache facility objects; defining a set of cache device objects; defining a set of cache device configuration objects; defining a set of cache rod position objects; the type of the cache region object is a region information model; caching the type of the facility object as a facility information model; caching the equipment object type as an equipment information model; the type of the cache equipment configuration object is an equipment configuration item information model; the type of the cache rod position object is a rod position information model;

3) creating a request object 1 of an HTTP GET request type, wherein the parameter of the request object is a URL, the content of the request object is a service end IP, a service port and a calling interface, and the interface has the function of inquiring all regional objects; the URL format is: http:// server IP: service port/query all regional objects;

4) creating a Response object 1 of a Response type, wherein a data entity of the Response object is a set A of area objects; the property items of the region object include at least: area ID, area name;

5) the HTTP client sends an HTTP GET request for inquiring the intelligent multifunctional rod area set to a northbound interface service of intelligent multifunctional rod resource management, wherein the parameter of the request is a request object 1;

6) is the request returned with success value? Yes, go to 7); NO, go to 28);

7) analyzing the data entity in the response object 1 to obtain a set of regional objects;

8) is the set of zone objects traversed? No, go to 9); yes, go to 28);

9) obtaining a region object;

10) creating a request object 2 of an HTTP GET request type, wherein the parameter of the request object is a URL, the content of the request object is a service end IP, a service port and a region object, the region ID and a calling interface, and the interface function is to inquire all facility object data in a region; the URL format is: http:// server IP? Zone object, zone ID;

11) creating a Response object 2 of Response type; its data entities are collections of facility objects; the type of the facility object is a facility information model;

12) the HTTP client object sends an HTTP GET request for inquiring the intelligent multifunctional pole facility to the intelligent multifunctional pole operation and maintenance northbound interface service, and the parameter of the HTTP GET request is a request object 2;

13) request 2 above returns a success value? Yes, go to 14); no, go to 8);

14) analyzing the data entity in the returned object 2 to obtain a set of facility objects;

traversing the set of facility objects, assigning values to the cache facility objects item by item, and finally obtaining the set of cache facility objects; the assignment content is as follows:

caching a facility object, wherein the area name is the facility object and the area name;

caching the facility object, wherein the facility name is the facility object and the facility name;

a cache facility object longitude is a facility object longitude;

a cache facility object latitude is a facility object latitude;

15) is the set of facility objects traversed? NO, go 16); yes, go 8);

16) obtaining a facility object;

17) creating a request object 3 of an HTTP GET request type, wherein the parameter of the request object is a URL character string, the content of the request object is a service end IP, a service port and a facility object, the facility ID and a calling interface, and the interface function is to inquire all equipment objects under the facility ID;

the format is as follows: http:// server IP? Facility object, facility ID;

creating a request object 4 of an HTTP GET request type, wherein the parameter of the request object is a URL, the URL content is a service end IP, a service port and a facility object, the facility ID and a calling interface, and the interface function is to inquire all equipment configuration objects under the facility ID; the format is as follows: http:// server IP? Facility object, facility ID;

creating a request object 5 of an HTTP GET request type, wherein the parameter of the request object is a URL character string, the content of the request object is a service end IP, a service port and a facility object, the facility ID and a calling interface, and the interface has the function of inquiring all rod position objects under the facility ID; the format is as follows: http:// server IP? Facility object, facility ID;

18) creating a Response object 3 of a Response type, wherein a data entity of the Response object is a set D of equipment objects; creating a Response type object 4 of a Response type, wherein a data entity of the Response type object is a set C of equipment configuration; creating a Response object 5 of Response type whose data entity is a set P of pole objects;

19) the HTTP client object sends an HTTP GET request 3 for inquiring the intelligent multifunctional pole equipment to the intelligent multifunctional pole operation and maintenance northbound interface service, and the request parameter is a request object 3;

the parameter is a URL, the content is a service end IP, a service port, a facility object, a facility ID and a calling interface, and the interface function is to inquire all equipment objects under the facility ID;

the format is as follows: http:// server IP? Facility object, facility ID;

20) is the above request 3 return value successful? Yes, go to 21); NO, go 22);

21) analyzing the data entity in the returned response object 3 to obtain a set of equipment objects; is the set of device objects traversed? Assigning the attribute items of the equipment objects to corresponding attribute items of the cache equipment objects one by one to finally obtain a set of the cache equipment objects; the specific screening assignment process is as follows:

if (device object. installation status equals idle), then:

caching the equipment object, wherein the facility name is the equipment object and the facility name;

caching the equipment object, wherein the pole position number is the equipment object and the pole position number;

a device object is cached, longitude is device object, longitude;

the latitude of the equipment object is cached as the latitude of the equipment object;

caching the equipment object, wherein the equipment name is the equipment object and the equipment name;

the protocol type is the equipment object and the protocol type;

the installation state is the equipment object and the installation state;

22) the HTTP client object sends an HTTP GET request 4 for inquiring the configuration of the intelligent multifunctional rod equipment to the intelligent multifunctional rod resource management northbound interface service, and the request parameter is a request object 4;

23) is the above request 4 returned with a value of success? Yes, go to 24); NO, go 25);

24) analyzing the data entity in the returned response object 4 to obtain a set of equipment configuration objects; traversing the set of the equipment configuration objects, assigning the attribute items of the equipment configuration objects to the attribute items of the cache equipment configuration objects item by item, and finally obtaining the set of the cache equipment configuration objects; the specific screening and assignment process is as follows:

the device configuration object is cached, and the facility name is the device configuration object and the facility name;

the rod position number is the equipment configuration object and the rod position number;

a device configuration object, longitude, device configuration object, longitude;

the latitude is the equipment configuration object;

caching the device configuration object, wherein the device name is the device configuration object and the device name;

the installation state is the equipment configuration object;

the maximum configuration item number is equal to the equipment configuration object;

the current configuration item number is equal to the equipment configuration object;

the installation state is the equipment configuration object;

25) the HTTP client object sends an HTTP GET request 5 for inquiring the pole position data of the intelligent multifunctional pole to the intelligent multifunctional pole operation and maintenance north-oriented interface service, and the request parameter is a request object 5;

26) is the above request 5 return value successful? Yes, go to 27); NO, go 15);

27) resolving the data entity in the returned response object 5; the entity comprises a set of position objects; traversing the set of the rod position objects, and assigning the attribute items of the rod position objects to the corresponding attribute items of the cache rod position objects item by item to finally obtain the set of the cache rod position objects; the specific assignment process is as follows: if (pole object. device name is not present in VSubSet, and pole object. installation status is idle):

caching the pole position object, wherein the facility name is the pole position object and the facility name;

caching the pole position object, wherein the pole position number is the pole position object and the pole position number;

a cache pole object longitude is pole object longitude;

a bar position object is cached, and the latitude is the bar position object and the latitude;

caching a pole position object, wherein the equipment name is the pole position object and the equipment name;

caching the pole position object, wherein the installation state is the pole position object and the installation state;

caching a pole position object, wherein the rated power consumption is the pole position object and the rated power consumption;

the rated voltage is the pole position object and the rated voltage;

caching a pole position object, wherein the rated current is the pole position object and the rated current;

caching a pole position object, namely a pole position object and a rated load; 15) removing;

28) and (6) exiting.

The establishing and initializing process for converting various cache resource objects of the intelligent multifunctional rod facility into cache uniform business resource objects is as follows:

1) initializing an object 1 of caching service resources, wherein the type of the object 1 is a caching service resource information model; initializing a set 1 of objects of a caching service resource information model type; loading a set of cache rod position objects and loading a set of cache equipment configuration objects;

2) is the set of cache rod objects traversed? No, go to 3); yes, go to 7);

3) obtaining an object of the cache rod position, and recording the object as a rod position 1;

4) if object 1. installation status equals idle, go 5); otherwise, go to 2);

5) the assignment process is as follows:

object 1, facility name pole position 1, facility name;

object 1. longitude-pole position 1. longitude;

object 1, latitude is pole position 1, latitude;

the object 1, the pole position number is 1, and the pole position number is 1;

object 1, rated power consumption, pole position 1, rated power consumption;

object 1, rated voltage, pole position 1, rated voltage;

object 1, rated current, pole position 1, rated current;

object 1, rated load bearing, rod position 1, rated load bearing;

object 1 is added to set 1;

go 2);

6) is traversing the set of cache device configuration objects complete? No, go to 7); yes, go to 9);

7) obtaining a configuration object of the cache device, and recording the configuration object as an object 2;

8) the assignment process is as follows:

object 1, facility name object 2, facility name;

the number of the pole position of the object 1 is equal to that of the pole position of the object 2;

object 1. longitude — object 2. longitude;

object 1, latitude ═ object 2, latitude;

object 1, device state, object 2, device state;

object 1, maximum configuration item number is object 2, maximum configuration item number;

object 1, current configuration item number is object 2, current configuration item number;

object 1, protocol type object 2, protocol type;

object 1 is added to set 1;

go 6);

9) is the set of cache device objects traversed? No, go to 10); yes, go to 12);

10) obtaining an equipment object, and recording the equipment object as an object 3;

11) the assignment process is as follows:

object 1. facility name — object 3. facility name;

the number of the pole position of the object 1 is equal to that of the pole position of the object 3;

object 1. longitude. object 3. longitude;

object 1, object 3, latitude;

object 1, device state, object 3, device state;

object 1 is added to set 1; go to 9);

12) and (6) exiting.

In the process of executing the intelligent multifunctional pole service management service, before a client creates an intelligent multifunctional pole service application form, an inlet sub-process for selecting service resources on a GIS map according to service types is as follows:

1) starting a client application front-end module;

2) the client successfully logs in the application front-end module;

3) entering an attention management unit list under an attention management unit page of an application front-end module; clicking a service reservation application button, popping up a service type prompt dialog box, and selecting one service type in the dialog box each time; a client selects a service type;

4) is the service type equal to pole rental service? Is, go 5); no, go to 6);

5) entering a GIS map-based intelligent multifunctional rod resource sub-process for a client to self-select; the input parameters of the sub-process are as follows: caching a set R of intelligent multifunctional pole service resource objects, wherein the service type P is pole position lease; screening the set R by P to obtain a set R ', emptying R, wherein R is R'; go to 12);

6) is the service type equal to equipment rental service? Yes, go to 7); no, go to 8);

7) entering a GIS map-based intelligent multifunctional rod resource sub-process selected by a client, wherein the input parameters are as follows: caching a data set R of the intelligent multifunctional lever business resource object, wherein the business type P is equipment lease; screening the set R by P to obtain a set R ', emptying R, wherein R is R'; go to 12);

8) traffic type equal to VIP commercial traffic? Yes, go to 9); no, go to 10);

9) entering a GIS map-based intelligent multifunctional rod resource sub-process selected by a client, wherein the input parameters are as follows: caching a set R of intelligent multifunctional rod business resource objects; the service type P is VIP business service; screening the set R by P to obtain a set R ', emptying R, wherein R is R'; go to 12);

10) is the service type equal to ordinary business? Yes, go to 11); no, go to 12);

11) entering a GIS map-based intelligent multifunctional rod resource sub-process selected by a client, wherein the input parameters are as follows: caching a set R of intelligent multifunctional rod business resource objects; the service type P is a common business service; screening the set R by P to obtain a set R ', emptying R, wherein R is R'; go to 12);

12) and (6) exiting.

In the process of executing the intelligent multifunctional rod service management unit service, based on a GIS map, a client self-selects an intelligent multifunctional rod resource sub-process as follows:

precondition:

inputting a service Type parameter Type and caching a set R of intelligent multifunctional rod service resource objects; creating an object r with the type of a business resource cache information model; creating a set S with the type of a business resource cache information model, and storing the set of the screened intelligent multifunctional rod business resource objects; creating a set A for caching the application service resources of the client application front-end module, wherein the type of the set A is the set type of the application service resource types of the client application front-end module;

1) creating a GIS map container object;

1.1) done traversing R? No, go to 1.2); is, go 1.6);

1.2) obtaining an element and assigning the element to r;

1.3) if (Type is equal to the pole rental service) and (r, the pole state is equal to idle), r is added into S and goes to 1.1); otherwise, go 1.4);

1.4) if (Type equals device rental service, or equals VIP business) and r. pole status equals installed, and r. device status equals idle, r is added to S, go 1.1); (ii) a Otherwise, go 1.5);

1.5) if (Type equals normal business, and r. pole status equals lock, and r. device status equals lock, then r is added to S; go 1.1);

1.6) removing 2);

2) and creating a page, and loading the GIS map container object in the page, and loading the S into the GIS map container.

3) Setting a scale of a map display object as an L19 layer, wherein the display precision is 20 meters;

4) rendering each object in the S in a GIS map container within a visual range of the page according to the longitude and latitude of the business resource cache object in the set S;

5) clicking a point on a map by a left mouse button, and setting the point as an origin 0;

6) clicking a pop-up dialog box by a right mouse button, selecting an enumerated value of a search radius, and setting the size of the current radius r0 to be 150 meters;

7) create instance 1 of the map address resolution component; setting a callback function F1, and creating and caching a set N and a set N' of intelligent multifunctional rod service resource objects within a certain radius range;

8) calling a reverse address resolution method of the example 1, and calculating a set N of intelligent multifunctional rod service resource objects within a radius r 0;

9) calling a map container, and re-rendering the set N to the GIS map according to the longitude and latitude of each element in the N;

10) on a map, N is used as a parameter, and a pole position or an equipment flow can be determined by executing a two-dimensional plane diagram of a pole body; then, the selection of the objects in the set N according to the geographic location to be served is implemented, so as to obtain a set N'? Yes, go to 11); no, go to 12);

11) clearing the set S; assigning N' to S; updating a set A of application service resources of a cache client application front-end module by taking the service Type as Type and a set S of service resources as input conditions, so that the state of each element in the cache is selected and to be reserved;

13) and (6) exiting.

The initialization process for determining the rod position plan or the equipment type plan through the two-dimensional plan of the rod body is as follows:

1) loading a rod body background layer vector diagram of the intelligent multifunctional rod; a rectangular blank frame surrounded by the black edges of the reserved rod positions of the equipment to be installed is distributed on the graph, so that a vector diagram of the equipment type can be drawn in the blank frame in a covering mode; the length and width pixel size, the pole position number, the length and width pixel size of each blank frame and the set of mountable device types corresponding to the pole position number of the pole body vector diagram are described by the structural configuration type of the intelligent multifunctional pole body. The device types include: lamp controller, camera, information screen etc..

2) Loading a device vector diagram of the intelligent multifunctional rod; the size of the picture is consistent with that of a blank frame in 1); the named character string of the vector diagram comprises 4 substrings, which are respectively: body of rod model, pole position number, equipment type and equipment state, equipment state includes: not installed, installed;

3) the specification size of the equipment plan is set, and the method comprises the following steps: the length and width pixel sizes of the background picture of the intelligent multifunctional rod body; the pixel size of the length and width of the device vector diagram of each position of the intelligent multifunctional joystick body;

obtaining the rod position structure configuration type of the intelligent multifunctional rod, wherein the type comprises the following attribute items: the method comprises the following steps of (1) obtaining a rod body type name, a total number of rod positions, a rod position number, a set of rod position mountable equipment types, the length and width pixel size of a rod position blank area, a rated load bearing value, a rated voltage value and a rated power consumption value;

4) the device type which can be installed on the pole is a set of a plurality of device type name character strings.

The rod position or the equipment object resource is determined through the two-dimensional plane diagram of the rod body and is used as an input parameter of a preset application form, wherein rod position leasing service is taken as an example for explanation. The execution flow of the pole rental business is as follows:

1) loading all rod body vector graph files; loading all idle and occupied vector graph files of the rod positions; loading all rod position equipment type vector map files; loading all the structure configuration object sets of the rod bodies; loading a structure configuration object set of all the rod positions; loading a set N of intelligent multifunctional rod business resource objects, and recording the set N as an object 1; defining a set of intelligent multifunctional rod business resource objects, and recording the set as an object 2;

2) inputting parameters: the service type is pole position lease, and load bearing, voltage, current and power are predicted;

3) filtering the object 1 according to the pole position state idle state, the predicted bearing, the predicted voltage, the predicted current and the predicted power;

4) obtaining the result of filtering the object 1 as an object 2;

5) rendering object 2 on the map;

6) a client selects a marking point of a service resource object on a map;

7) the business resource object corresponding to the marking point is recorded as a rod body 1;

8) obtaining a rod body configuration object 1 according to the rod body 1 and the rod body type;

9) obtaining a rod body vector diagram 1 according to the rod body type 1;

10) obtaining a vector diagram 2 of the rod position occupation type;

11) obtaining a vector diagram 3 of a rod position idle type;

12) taking the screen coordinate of the marking point of the rod body 1 as the upper left corner coordinate;

13) loading a rendering vector diagram 1;

14) acquiring a set 1 of rod position structure configuration objects according to the rod body 1 and the rod body type; the attributes of the bar structure configuration object at least include: the position number, the type of the rod body, the pixel size of the length of the rod position vector diagram, the pixel size of the width of the rod position vector diagram, the type set of the devices which can be installed on the rod position, the rated bearing, the rated voltage, the rated current, the rated power consumption and the state of the rod position.

15) Is it done to traverse the set of bar-structured configuration objects 1? No, go to 15.1); yes, go 16);

15.1) obtaining a rod position configuration object 1;

15.2) inquiring a pole position configuration object 1. pole position state; in a vector diagram 1 corresponding to a rod body 1, determining coordinates of the upper left corner of a vector diagram 2 and a vector diagram 3 to be drawn according to a rod position configuration object 1 and a rod position number;

15.3) rendering the vector diagram 3 if the position of the rod configures the object 1 in the vector diagram 1 and the state of the rod is idle; 15) removing;

15.4) in the vector diagram 1, if the rod position configures the object 1, the rod position state is occupied, rendering the vector diagram 2; 15) removing;

16) browsing by a client, selecting a rod icon, and keeping all parameters;

17) selecting parameters by a client, applying the parameters to a batch of service resource objects to obtain a service resource set 3;

18) the client submits the parameters and the service resource set 3 to the attention management unit application form;

19) and (6) ending.

In the process of executing the intelligent multifunctional rod business management business, self-selection resources are adopted, and the sub-process of submitting a request form for business reservation by a client is as follows:

precondition:

loading an object A of a type of a set of application service resource types of a client application front-end module;

1) starting a client application front-end module;

2) the client successfully logs in the application front-end module;

3) entering an attention management unit page of a client application front-end module;

4) loading an object A in an attention management unit page; looking up the list of the concerned management unit items, and selecting a row of records; the attribute items of the row record comprise: a set r of numbers, service types, states and application service resource objects;

5) if the state of the current row record is that the resource is selected and is to be reserved, clicking a reservation submission button on the right side of the item; popping up a dialog box, and setting attribute items of service starting time and service ending time; setting other parameters of the configuration items according to the service types;

5.1) when the service type is the VIP business service, the VIP business service application condition parameters input by the client comprise:

device type name, device type value;

a service start time name, a service start time value;

a service end time name and a service end time value;

a service cycle execution start time name and a service cycle execution start time value;

the name of the service period execution ending time and the value of the service period execution ending time;

applying for the value of the service configuration item, taking the equipment type as the lamp controller, and listing the configuration items as follows:

device name, value of device name;

the loop name, the value of the loop name;

switch state name, switch state value: opening;

the name of the time of turning on the light in the same day and the value of the time of turning on the light in the same day;

the name of the time of the light turning off the day and the value of the time of the light turning off the day;

the IP name of the lamp controller and the IP value of the lamp controller;

a lamp controller port name, a lamp controller port value;

5.2) when the service type is a general commercial service,

the application condition parameters input by the client comprise:

device type name, device type value;

a service start time name, a service start time value;

a service end time name and a service end time value;

applying for the value of the service configuration item, taking the equipment type as an information screen, wherein the configuration item list is as follows:

information screen device name, information screen device name value;

the password name and the password value of the information screen equipment are obtained;

an information screen device IP name and an information screen device IP value;

information screen device port, information screen device port value;

information screen equipment switch state name and information screen equipment switch state value;

program name, program name;

volume name, volume value;

a play mode name, a play mode value;

a current play start time name, a current play start time value;

the name of the playing ending time of the day and the value of the playing ending time of the day;

5.3) when the service type is the lever rental service, the lever rental service application condition parameters input by the customer comprise:

facility name, value of facility name;

predicting load bearing and a predicted load bearing value;

a predicted voltage, a predicted voltage value;

expected power consumption, an expected power consumption value;

lease start time name, lease start time value;

lease end time name, lease end time value;

5.4) when the service type is the equipment lease service, the equipment lease service application condition parameters input by the customer comprise:

a facility type name, a facility type value;

access protocol, access protocol value;

lease start time name, lease start time value;

lease end time name, lease end time value;

6) and prompting by a dialog box: is the selected business resource and configuration determined to be committed? Yes, go to 7); NO, go 13);

7) with the current customer name N as a parameter, requesting a customer management unit of a service backend management module to acquire a customer phone number T, a customer qualification file W, and a legal identity number H success? Yes, go 8); NO, go 13);

8) the method comprises the steps that a client application front-end module sends a request for creating a service subscription application form to a service back-end management module by taking a service type, a client name N, a client telephone number T, a storage address W of a client qualification file, a legal person identity card number H, a set r of service resource objects, application condition parameters, a configuration item list (only VIP business services and common business services have), service start time and service end time as parameters;

9) the client application front-end module submits a request for booking the service application form to an application gateway of the service back-end management module by taking an application form object of service booking as a request parameter;

10) after receiving the request of booking the service application form, the application gateway of the service back-end management module routes to the service management unit;

11) the service application function of the service management unit firstly analyzes the request parameters in the request interface to obtain a service subscribed request form object rt; secondly, establishing a service booking application form object T; thirdly, obtaining the maximum application form number N from a service application form table of the database; finally, assigning values to the relevant attributes of the T object;

t. application No. ═ N + 1;

t. service type rt.;

t. customer name rt. customer name;

t. customer phone number rt. customer phone number;

t, the storage address of the client qualification file is rt.;

t, the client identity card number is rt. client identity card number;

t. application time rt. application time;

t. service start time rt.;

t. service end time is rt. service end time;

t. application form status-reserved and waiting for resource allocation;

successfully saving the data of the application form object T of the service subscription to the service application subscription form table of the database?

Setting the return value of the response of the application of the service reservation as reserved and waiting for resource allocation; using the application form object, the collection of the service resource object, the application condition parameter and the configuration item list as parameters, calling and creating the intelligent multifunctional rod service sub-process (reserving and distributing resources in a service layer firstly, and then activating after signing a contract); go to 12);

if not, setting the return value of the response of the service booking application as booking failure; go to 12);

12) the service back end management module returns result data of the created service application form to the client application front end module, and the corresponding service pre-order in the service application form list in the attention management unit of the client application front end module is reserved and is ready for resource allocation;

13) and (6) exiting.

In the flow of executing the intelligent multifunctional rod business management business, the service back-end management module automatically carries out the scheduling configuration of the self-selected resources based on the strategy, and the flow comprises the following sub-flows;

1) preprocessing self-selection service resource scheduling;

2) automatically sequencing similar services according to the number of the applied service resources from high to low;

3) and scheduling and configuring the service resources according to the client priority.

In the flow of executing the intelligent multifunctional rod business management business, the service back-end management module automatically performs the scheduling configuration of the optional resources based on the strategy, and the preprocessing sub-flow of the optional resource scheduling is described as follows;

1) acquiring a set P of all service application form records from a service application form table of a database;

2) acquiring a set Z of all service resource table records from a service resource table of a database;

3) and defining the service classification: pole renting, equipment renting and VIP business, which are collectively called equipment business;

the method comprises the steps that a multi-primary-key hash table of application service resources of a VIP client device class is named as v _ d _ mmap, a primary key is a VIP client name, and the value is a service resource object; the method comprises the steps that a multi-primary-key hash table of application service resources of common client equipment is named as c _ d _ mmap, primary keys are common client names, and values are service resource objects; the VIP customer common business application business resource multi-primary key hash table is named as v _2c _ mmap, the primary key is the VIP customer name, and the value is a business resource object; the application service resource multi-primary key hash table of the common business service of the common client is named as c3_ mmap, the primary key is the name of the common client, and the value is a service resource object; the method comprises the steps that a set of service applying client names of a VIP client device class is named as v _ d _ set, and the value is the client name; the set of the names of the clients applying for the service of the common client equipment class is named as c _ d _ set, and the value of the client names is; the method comprises the following steps that a set of service client names of application service of common business services of VIP clients is named as v _2c _ set, and the value is the client name; the set of application service client names of common client common business services is named as c3_ set and has the value of client name;

4) defining a service application object r; defining a service resource object s;

5) finish Z? No, go to 6); yes, go to 11);

6) obtaining a service resource object;

if the state of the application form is equal to the state of the reserved and to-be-allocated resources, the service resource object is assigned to the value s;

otherwise, go to 5);

7) if the s. customer grade is equal to the VIP customer, and the s. service type is equal to the club body leasing service, or the equipment leasing service, or the VIP business service, the s. customer name is used as a main key, and s is used as a value, and the value is added into the v _ d _ mmap; s. client name is added to v _ d _ set;

otherwise, go to 8);

8) if the s. customer grade is equal to the ordinary customer, and the s. service type is equal to the club body leasing service, or the equipment leasing service, or the VIP business service, the s. customer name is taken as a main key, and s is taken as a value, and the value is added into the c _ d _ mmap; s. client name is added to c _ d _ set;

otherwise, go to 9);

9) if the s. customer grade is equal to the VIP customer and the s. business type is equal to the common business, adding the s. customer name as a main key and s as a value into v _2c _ mmap; s. client name is added to c _2c _ set;

otherwise, go to 10);

10) if s. customer class is equal to general customer and s. service type is equal to general business service, then add s. customer name as primary key, s as value to c3_ mmap; s. client name is added to c3_ set;

otherwise, go to 5);

11) and (6) exiting.

In the flow of executing the intelligent multifunctional lever service management service, the service back-end management module automatically performs scheduling configuration of self-selected resources based on the strategy, and various users apply for resource sequencing and classification sub-flows, which are described as follows;

precondition:

inputting parameters: applying for a service resource hash table in _ mmap, such as v _ d _ mmap, v _2c _ mmap, c3_ mmap and c _ d _ mmap; applying for a service client name set in _ set, such as v _ d _ set, c _ d _ set, v _2c _ set and c3_ set;

outputting parameters: x _ mmap taking the number of the service resources as a main key and the name of the client as a value; a set of values x _ set;

1) is traversal in _ set complete? No, go to 2); is, go 6);

2) get a value of _ s, which is the client name;

3) with _ s as the primary key, query in _ mmap has a value? Is, go 4); no, go to 1);

4) obtaining a value _ v; v is a set of traffic resources;

5) adding x _ mmap by taking the total number of _ v as a main key and taking _ s as a value; total number of x _ set insertions _ v; go 1);

6) and (6) exiting.

In the flow of executing the intelligent multifunctional rod service management service, the service back-end management module automatically performs scheduling configuration of self-selected service resources based on the strategy, and automatically sorts the similar services according to the sub-flows of the service resources in the order of the number from large to small, which is described as follows;

precondition:

inputting parameters: applying for a service resource hash table x _ mmap; in _ mmap, such as v _ d _ mmap, v _2c _ mmap, c3_ mmap, c _ d _ mmap;

applying for a service client name set x _ set;

outputting parameters: none;

1) the x _ sets are sorted from big to small;

2) do the traversal of x _ set from head? No, go to 3); yes, go 15);

3) has _ s;

4) query x _ mmap by _ s has a value? Is, go 5); no, go to 2);

5) obtaining a value v;

6) is traversal v complete? No, go to 7); is, go 2);

7) obtaining a client name n;

8) query by n for in _ mmap has a value? Yes, go to 9); no, go to 6);

9) obtaining a value v 1;

10) is traversal v1 complete? NO, go to 11); is, go 6);

11) obtaining a value v2 representing a service resource object;

12) if (v2. service type is lever lease), v2. lever state is locked;

otherwise, if (v2. service type is equipment lease), v2. equipment state is locked;

otherwise, if (v2. device status is not locked and v2. traffic type is VIP business), then v2. is the current configuration item number + 1;

otherwise, if (v2. service type is normal business service), v2. device state is locked, v2. current configuration item number + 1;

updating the corresponding v2 value in _ mmap;

otherwise, go to 10);

13) defining a charging policy object, and inputting parameters: client name, number of application resources; calling a charging strategy automatic distribution flow;

14) updating the database table by the service resource object and the charging strategy object; creating a contract object H; assigning relevant parameters of the contract object H;

inquiring the maximum contract number N from the contract table; H. the contract number is N + 1;

H. service name is v2. service type + N +1 of serialization;

H. v2. service type;

H. client name v2. client name;

H. a provider is a system administrator user name;

H. v2. service start time;

H. charging strategy ID is charging strategy object;

writing the contract object data into a data contract table;

pushing a message of successful booking and resource allocation completion;

15) and (6) exiting.

In the flow of executing the intelligent multifunctional lever service management service, when the service back-end management module automatically schedules and configures the self-selection service resources based on the strategy, the self-selection service resource sub-flow is scheduled and configured according to the priority of the client, which is described as follows;

firstly, calling equipment-class service resource processing of the VIP client:

1) calling various user application resource sequencing and classifying processes by taking v _ d _ mmap and v _ d _ set as parameters, and outputting x _ v _ d _ mmap with the number of service resources as a main key and the name of a client as a value; a set x _ v _ d _ set with the number of traffic resources as a value;

2) taking x _ v _ d _ mmap and x _ v _ d _ set as parameters, and calling the similar services to automatically sort the flows according to the quantity from more to less;

secondly, calling equipment service resources of the common client for processing:

1) calling various user application resource sequencing and classifying processes by taking v _2c _ mmap and v _2c _ set as parameters, and outputting x _ v _2c _ mmap with the number as a main key and the name as a value; a set of values x _2c _ set;

2) taking x _ v _2c _ mmap and x _2c _ set as parameters, and calling the similar services to automatically sort the flows according to the quantity from more to less;

and thirdly, calling the VIP customer common configuration type service resource processing:

1) calling various user application resource sequencing and classifying processes by taking c3_ mmap and c3_ set as parameters, and outputting x _ c3_ mmap with the number as a main key and the name as a value; a set of values x _ c3_ set;

2) and calling the similar services to automatically sort the flows according to the quantity from high to low by taking x _ c3_ mmap and x _ c3_ set as parameters.

And finally, processing the service resources of the common configuration class of the common client:

1) calling various user application resource sequencing and classifying processes by taking c _ d _ mmap and c _ d _ set as parameters, and outputting x _ c _ d __ mmap with the number as a main key and the name as a value; a set of values x _ c _ d _ set;

2) and calling the similar services to automatically sort the flows according to the quantity from high to low by taking x _ c _ d __ mmap and x _ c _ d _ set as parameters.

In the flow of executing the intelligent multifunctional pole service management service, the automatic distribution flow of the service charging strategy is realized;

1) inputting parameters: a business application form object; and loading the input parameters to the local.

2) Extracting a client name and the number N of service resources from the service application form;

3) inquiring the identity card number of the client, the geographic position of the client and the grade of the client according to the name of the client;

4) if the customer level is a VIP customer? Is, go 5); no, go to 6);

5) billing policy sets 98 discounts; the charging start time is the current day;

6) if the customer class is a normal customer, then every more than 100 and less than 500 according to the number of service resources N? Yes, go to 7); no, go to 8);

7) the charging policy sets discount 9.9 points; the charging start time is the current day;

8) if the number of traffic resources N is less than 1000 per more than 500? Yes, go to 9); no, go to 10);

9) the charging policy sets discount 98; the charging start time is the current day;

10) if the number of service resources N exceeds 1000, is less than 5000? Yes, go to 11); no, go to 12);

11) the charging strategy is set with discount of 95; the charging start time is the current day;

12) if the current time is in the fourth quarter? Yes, go 13); NO, go to 14);

13) the charging strategy sets discount without discount; extracting the date of the day, wherein the charging starting time is the same day of the next month;

14) and (6) ending.

In the flow of executing the intelligent multifunctional rod business management business, the description of creating the intelligent multifunctional rod business sub-flow by taking an application single object, a set of business resource objects and a configuration item list as parameters is as follows:

precondition: the method comprises the following steps that a service resource cache r, an application form object t, a set src _ s of service resource objects, a configuration item list as a parameter cf _ s _ in, an application condition parameter condi _ in, a device cache rod body object set, an equipment object set and an equipment configuration object set are adopted;

1) searching a service number n from a service table of a database; creating a temporary variable N-0; n + 1;

2) creating an object S of the intelligent multifunctional pole business information model type;

3) s, service number is N;

s. service type r. configurable service;

s. service name ═ serialization (r. configurable service) + serialization (N);

s. client is t. client name;

s, a service provider is an administrator;

s. service start time r;

s. service end time r;

4) creating an object Sub of the information model type of the intelligent multifunctional pole business subentry; creating a set Sub _ S of objects of the information model type of the intelligent multifunctional pole business subentry;

4.1) done traversing src _ s? No, go to 4.2); is, go 4.6);

4.2) obtaining a service resource r;

4.3) defining a current configuration item C, a maximum configuration item M and a sub-item number Sc; c is 0;

M＝0；Sc＝0；

4.4) if C is equal to M, exit; otherwise, carrying out assignment:

sub, service type is s service type;

sub, service name is s, service name;

sub, a bar name r a facility name;

if S, the service type is pole rental

And the expected Condi _ in. power consumption < r. nominal power consumption;

and Condi _ in. expected voltage < r. rated voltage;

and Condi _ in. expected current < r. rated current;

and Condi _ in. predicted load bearing < r. rated load bearing;

the assignment is as follows:

sub, rod number r rod number;

go 4.5);

otherwise, if the S. service type is equipment lease

And the Condi _ in device type is equal to the r device type;

and the Condi _ in. protocol type is equal to the r. protocol type;

the assignment is as follows:

sub, rod number r rod number;

sub, equipment name r, equipment name;

go 4.5);

otherwise, the assignments are as follows:

the method comprises the steps of obtaining a current configuration item of an intelligent multifunctional pole service sub-item table and assigning the current configuration item to C, the maximum configuration item to M and a sub-item number to Sc by taking an equipment name as a parameter;

sub, rod number r rod number;

sub, equipment name r, equipment name;

current configuration item ═ C + 1;

sub-term No. Sc + 1;

4.5) adding Sub into Sub _ S; go 4.1);

4.6) go to 5).

5) Creating an object Cfg of an information model type of a service configuration item; creating an object Cfg _ s of an information model type of a service configuration item;

5.1) complete traversal cf _ s _ in? No, go to 5.2); is, go 5.8);

5.2) obtaining a configuration object cf;

5.3) if (s. service type is equal to normal commercial service), go to 5.4); otherwise, go to 5.5);

5.4) acquiring a current configuration item C, a maximum configuration item M and a sub-item number Sc of the intelligent multifunctional pole service configuration table by taking the r-equipment name as a parameter;

if (C is less than M and C is not equal to 0), then the generic business attribute item is assigned:

cfg. service name is s. service name;

cfg. device name r. device name;

cfg, configuration item name cf, configuration item name;

a configuration item value cf;

adding Cfg into Cfg _ s;

go 5.1);

5.5) if (s. traffic type equals VIP commercial traffic), go to 5.6); otherwise, go to 5.1);

5.6) acquiring a current configuration item C, a maximum configuration item M and a sub-item number Sc of the intelligent multifunctional pole service configuration item table by taking the r-equipment name as a parameter;

if (C equals 0) then the VIP business attribute item is assigned:

cfg. service name is s. service name;

cfg. device name r. device name;

cfg, configuration item name cf, configuration item name;

a configuration item value cf;

adding Cfg into Cfg _ s;

go 5.1);

5.7) writing the S into a database service table; sub _ S is written into the database service Sub item table; writing the Cfg _ s into a service configuration item table;

5.8) exiting.

In the flow executed by the intelligent multifunctional pole service management service, after a client receives a notice of service contract signing and charging strategy, the sub-flow of signing the service contract at the client application front-end module is as follows;

1) is the client application front-end module receiving a prompt that the service application form is successfully ordered and a contract is to be signed? Is, go 2); no, go to 7);

2) the client opens a click my contract list under a focus management unit page, sends an HTTP request message to a contract management unit of a service back-end management module, and inquires a set of all established contract objects associated with the current client name;

3) displaying a list corresponding to the acquired set of contract objects under a focus management unit page; a client selects a line of records in a contract list, and corresponds to a service contract object;

4) the client checks the service name, the service type, the service execution starting time, the service execution ending time, the client name and the service resource list of the contract object;

5) is the audit passed? Is, go 6); no, go to 7);

6) clicking the button item of the row of contract records: signing a contract; the state is assigned as signing; sending a service contract signing request to a service back end management module gateway of the intelligent multifunctional pole service management device through an HTTP (hyper text transport protocol) by taking a contract object as a parameter;

7) and (6) exiting.

In the process of executing the intelligent multifunctional pole service management service, a client is informed of service contract signing and charging processing, and a contract monitoring process sub-process is as follows;

precondition:

the thread of business contract monitoring is started; establishing a hash table map _ t which takes a contract name as a main key and takes a value as a contract object;

inputting a contract object, wherein the attribute items of the object comprise: service name, customer phone number, contract name, contract status: new, sign, pause, and terminate.

1) Is the monitoring thread exited? No, go to 2); yes, go to 9);

2) contract status is signed? Is, go 3); no, go to 7);

3) locking;

inserting the contract name and the contract object into map _ t;

unlocking;

4) calling a service management unit of a service back-end management module of intelligent multifunctional pole service management to automatically activate a service sub-process by taking a contract object, a contract name, a contract object and a service type as parameters;

5) create a client evaluation message body object 1 whose attribute items include: client name, client positive score, client negative score; the object 1, the client positive score is assigned to 1 point, and the object 1, the client name is assigned to a contract object and the client name; sending a message to a customer management module of a service back-end management module of the intelligent multifunctional pole service management;

6) is there a value to query map _ t with the contract name? Yes, go to 7); no, go to 1);

7) is the contract status paused or stopped? Yes, go 8); no, go to 1);

8) create a client evaluation message body object 2 whose attribute items include: client name, client positive score, client negative score; the object 2, the client negative score is assigned to 1 point, and the object 2, the client name is assigned to a contract object and the client name; the object 2 is used as a message body parameter, and a message is sent to a customer management module of a service back-end management module of the intelligent multifunctional pole service management;

9) and (6) exiting.

In the flow of executing the intelligent multifunctional pole business management business, after a business contract is signed, the automatic activation business sub-flow of the business management unit of the service rear end management module is explained as follows;

1) monitoring a service activation message with the contract name, the service name and the service type as parameters from a contract management unit;

2) is traffic type equal to VIP commercial traffic, or equal to ordinary commercial traffic? Is, go 3); no, go to 4);

3) inquiring a set S of the equipment configuration items of the service from the equipment configuration item table by taking the contract name as a parameter; defining a set N of service configuration items;

3.1) finish traversing S? No, go to 3.2); is, go 4);

3.2) obtaining an equipment configuration item;

3.3) device configuration item the device type is street light controller? Is, go 3.4); no, go to 3.5);

3.4) calling an intelligent street lamp control access sub-process, wherein the input parameters are equipment configuration items; the return value is an activation result value;

3.5) device configuration item the device type is camera? Is, go 3.6); no, go to 3.7);

3.6) calling a camera access sub-process, and inputting parameters into equipment configuration items; the return value is an activation result value;

3.7) device configuration item the device type is information screen? Is, go 3.8); no, go to 3.9);

3.8) calling an information screen to control access to a sub-process, wherein the input parameter is an equipment configuration item; the return value is an activation result value;

if the activation result value is failure, adding the equipment configuration item object into N; go 3.9);

3.9) n. size greater than 0?

If yes, clearing S; s is N; n, emptying;

no, go to 6);

go 3.1);

4) is the service type equal to pole rental service, or equal to equipment rental service? Is, go 5); no, go to 7);

5) inquiring a set S of the service resource object from a service resource table by taking the service name as a parameter; defining a boolean value B TRUE; activating a set N of uncompleted business resource objects;

5.1) finish traversing S? No, go to 5.2); is, go 6);

5.2) obtaining a service resource object;

5.3) calling a leasing object locking and unlocking sub-process, wherein the input parameter is a business resource object; the return value is an activation result value; if the activation result value is failure, adding the service resource object into N; go 5.1);

5.4) N. size greater than 0?

If yes, clearing S; s is N; n, emptying;

no, go to 6);

removing 5.1;

6) and (3) message sending:

is traffic type equal to VIP commercial traffic, or equal to ordinary commercial traffic? Then:

refreshing the service state data in the equipment configuration table of the database as successful transmission by using the service name as a parameter; creating a service-activated message body object 1, wherein the attribute items comprise: service name, client name, activation time; sending a successful message of service activation to a client application front-end module by an object 1 and a service name; sending a successful message of service activation to a charging module to start charging;

if the service type is equal to the lever rental service or equal to the equipment rental service? Then:

refreshing the service state data in the service resource table of the database as successful sending by taking the service name as a parameter; creating a service-activated message body object 1, wherein the attribute items comprise: service name, client name, activation time; sending a successful message of service activation to a client application front-end module by an object 1 and a service name; sending a successful message of service activation to a charging module to start charging;

7) and (6) ending.

In the flow of executing the intelligent multifunctional pole business management business, the intelligent street lamp control access sub-flow in the business sub-flow is automatically activated, and the description is as follows;

1) creating an HTTPclient end object;

2) creating a URL for the HTTP street light control interface for the interface service, such as: HTTP:// IP? Configuring item parameters;

3) establishing an HTTPpost object by taking the URL as a parameter; creating a response return value object R of the HTTP type; the data entity of R comprises a structural body, and the attribute items of the structural body comprise a service name, an equipment loop number and a loop switch state;

4) setting a data entity needing to be sent in the POST request, wherein the data entity is a name-value pair list of an equipment configuration item:

a service name, a value of the service name;

device name, value of device name;

the loop number name, the value of the loop number;

switch state name, switch state value: can be on or off;

name of continuous day, number of continuous day of turning on light;

the encoding mode is UTF-8;

5) the HTTPclient object sends an HTTPpost object request to a device interface service of the operation and maintenance management of the intelligent multifunctional pole facility; the HTTP request return value is assigned to R;

6) r, the data entity is equipment name, equipment loop number and loop switch state information;

7) r. success in return value? Yes, go 8); no, go to 9);

8) returning to success;

9) a failure is returned.

In the flow of the intelligent multifunctional lever business management business execution, the description of the sub-flow of the lease object locking and unlocking sub-flow in the business sub-flow is as follows;

1) creating an HTTPclient end object;

3) establishing an HTTPpost object by taking the URL as a parameter; creating a response return value object R of the HTTP type; the data entity of R comprises a structural body, and the attribute items of the structural body comprise a service name, a facility name, a pole position number, an equipment name, a pole position state and an equipment state;

a service name, a value of the service name;

facility name, value of facility name;

the value of the pole number, the pole number;

device name, value of device name;

pole position state name, value of pole position state: may be locked or unlocked;

device state name, value of device state: may be locked or unlocked;

executing the time name and the time value;

the encoding mode is UTF-8;

5) the HTTPclient object sends an HTTPpost object request to the interface service; the HTTP request return value is assigned to R;

6) r, the data entity is service name, facility name, pole position number, equipment name, pole position state and equipment state information;

7) r. success in return value? Yes, go 8); no, go to 9);

8) returning to success;

9) a failure is returned.

In the flow of executing the intelligent multifunctional pole service management service, after the service is activated, the charging execution sub-flow of the charge management unit is automatically started:

precondition:

the charging execution thread is started successfully;

1) is the charging execution thread exited? Yes, go to 12); no, go to 2);

2) the current time is set to Tcr; the last time charging completion time is Tend;

3) Tcr-Tend > 24? If yes, acquiring all service cost sets from a database, and removing 4); no, go to 1);

4) is the set of business cost objects traversed? Is, go 1); no, go to 5);

5) obtaining a service charge object C;

6) is the time point in Tcr less than c charging start time? Is, go 4); no, go to 7);

7) tcr-c. last charge time > 24? Yes, go 8); no, go to 4);

8) c, charging days + +;

9) c, last charging time is Tcr;

10) c, the last cost is × c, discount × c, charging days + c, the last cost;

11) writing the service charge object C into a database service charge table; go 4);

12) and (6) exiting.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A business management method of intelligent multifunctional pole facilities is characterized by comprising the following steps:

2. The method of claim 1, wherein the facility operation and maintenance data comprises facilities, pole positions, equipment, and equipment configurations.

3. The method of claim 1, wherein the application front-end module selects a service type and displays a corresponding service resource on a GIS map, and specifically comprises the steps of:

creating a GIS map container object;

4. The method of claim 1, wherein the service management back-end module performs scheduling allocation of service resources corresponding to the service application form in batch, specifically comprising the following steps;

5. The method of claim 1, wherein the step of confirming the scheduling result of the service resource and contracting in the application front-end module comprises the steps of:

if the examination is passed, assigning the contract object state as signing;

6. The method of claim 1, wherein the service management back-end module performs service charging management, and specifically comprises the following steps:

and after the service is deactivated, automatically stopping service charging.

7. A business management device of intelligent multifunctional rod facilities is characterized by comprising a service management back-end module, a database and an application front-end module;

8. The apparatus of claim 7, wherein the application front-end module comprises a business browsing unit, an attention management unit, an approval management unit, a business query unit;

9. The apparatus of claim 7, wherein the service management backend module comprises: the system comprises a client management unit, a service management unit, a contract management unit and a charge management unit;

10. The apparatus of claim 9,

the service management back-end module and the application front-end module adopt an HTTP protocol for communication interaction through the application gateway;