CN116582428A - Dedicated line resource investigation method and device, electronic equipment and storage medium - Google Patents

Abstract

The invention provides a method, a device, electronic equipment and a storage medium for dedicated line resource investigation, which relate to the technical field of Internet and comprise the following steps: inputting the required resources of the special line to be surveyed into a survey rule model to obtain a survey rule; and determining a target value of each target parameter according to the parameter mapping type and the calculation rule, matching the target value with corresponding data in a database, and obtaining a resource exploration result of the special line to be surveyed based on the matching result. According to the method, the required resources of the special line to be surveyed are converted into the surveying rule by using the surveying rule model, the target value of each parameter included in the surveying rule is calculated, the target value is matched with the corresponding resource characteristic data in the database, the resource surveying result of the special line to be surveyed is obtained based on the matching result, manual resource surveying is not needed, the cost of resource surveying is reduced, the efficiency of resource surveying is improved, the possibility of errors of the surveying result due to uncertainty of manual surveying is avoided, and efficient and accurate surveying of resources is realized.

Description

Dedicated line resource investigation method and device, electronic equipment and storage medium

Technical Field

The present invention relates to the field of internet technologies, and in particular, to a method and apparatus for dedicated line resource exploration, an electronic device, and a storage medium.

Background

The private line refers to a private network that relies on operator network resources for transmitting data. With the continuous development of internet technology, the demands of the army, government, enterprises and the like on special lines are more and more vigorous, and the group customer business is in a rapid development state, so that higher demands are put on the construction of the special lines. Before the private line is built, the resources for building the private line need to be surveyed to judge whether the existing private line resources meet the requirement of the construction.

The traditional dedicated line resource investigation method is usually used for carrying out manual resource investigation, and the method is low in efficiency, needs to consume a large amount of time and labor cost, and can cause errors in investigation results due to uncertainty of manual investigation.

Disclosure of Invention

The invention provides a special line resource investigation method, a special line resource investigation device, electronic equipment and a storage medium, which are used for solving the defects of low artificial resource investigation efficiency, high cost and possible error of investigation results in the prior art.

The invention provides a dedicated line resource investigation method, which comprises the following steps: inputting the required resources of the special line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model; the investigation rule model comprises a corresponding relation between required resources and target parameters; the investigation rule comprises at least one target parameter, and each target parameter comprises a parameter name, a parameter mapping type and a calculation rule; determining a target value of each target parameter according to the parameter mapping type and the calculation rule; matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; the resource characteristic data stored in the database is obtained by extracting the characteristics of communication resources in the target area; and obtaining a resource exploration result of the special line to be surveyed based on the matching result.

According to the private line resource exploration method provided by the invention, before the required resources of the private line to be surveyed are input into the exploration rule model, the method further comprises the following steps: determining basic parameters according to the demand resources of the historical special line, wherein each basic parameter comprises a parameter name, a parameter type, a parameter mapping type, whether a rule is started or not and a calculation rule; a survey rule model is constructed based on the parameter name, parameter type, parameter map type, whether rules are enabled and calculated for each basic parameter.

According to the method for surveying the resources of the private line provided by the invention, the required resources of the private line to be surveyed are input into the surveying rule model to obtain the surveying rule output by the surveying rule model, and the method comprises the following steps: determining whether basic parameters in a survey rule model are started according to the required resources of the special line to be surveyed; selecting the enabled basic parameters as target parameters, and determining the parameter mapping types of the target parameters; the parameter mapping type comprises a fixed value, a single value or a conditional calculation value; determining a corresponding calculation rule based on the parameter mapping type of the target parameter; and obtaining the investigation rule based on the target parameter, the parameter mapping type of the target parameter and the corresponding calculation rule.

According to the method for surveying the resources of the private line provided by the invention, the required resources of the private line to be surveyed are input into the surveying rule model to obtain the surveying rule output by the surveying rule model, and the method comprises the following steps: inputting the required resources of the special line to be surveyed into a survey rule model to obtain a first survey rule and a second survey rule which are output by the survey rule model, wherein the priority of the first survey rule is higher than that of the second survey rule; the first survey rule and the second survey rule are different; determining a target value of each target parameter according to the parameter mapping type and the calculation rule, and matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; obtaining a resource exploration result of a special line to be surveyed based on the matching result, comprising: determining a first target value of each target parameter according to the first parameter mapping type and a first calculation rule; wherein each target parameter of the first survey rule includes a first parameter name, a first parameter mapping type, and a first calculation rule; matching the first target value with the resource characteristic data corresponding to the first parameter name in the database to obtain a first matching result; if the first target value is matched with the resource characteristic data corresponding to the first parameter name in the database, obtaining a resource exploration result of the special line to be surveyed based on the first matching result; if the first target value is not matched with the resource characteristic data corresponding to the first parameter name in the database, a second matching result is obtained through a second investigation rule, and a resource investigation result of the special line to be investigated is obtained based on the second matching result.

According to the method for surveying the resources of the private line provided by the invention, the required resources of the private line to be surveyed are input into the surveying rule model to obtain the surveying rule output by the surveying rule model, and the method comprises the following steps: inputting the first required resources of the first special line to be surveyed into the survey rule model to obtain a third survey rule output by the survey rule model; inputting a second required resource of a second special line to be surveyed into the survey rule model to obtain a fourth survey rule output by the survey rule model; wherein the third survey rule and the fourth survey rule are different.

According to the private line resource exploration method provided by the invention, before the target value of each target parameter is matched with the resource characteristic data of the corresponding parameter name in the database, the method further comprises the following steps: acquiring communication resources of the current region; extracting the characteristics of the communication resources to obtain resource characteristic data, wherein each parameter in the resource characteristic data comprises a parameter name and an acquisition value; and establishing a collected data model according to the resource characteristic data, and storing the collected data model into a database.

According to the private line resource exploration method provided by the invention, the target parameters comprise: at least one of standard address, resource type, service guarantee level, broadband, longitude and latitude, and access radius.

The invention also provides a special line resource investigation device, which comprises: the survey rule module is used for inputting the required resources of the special line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model; the method comprises the steps of performing investigation on at least one target parameter, wherein each target parameter comprises a parameter name, a parameter mapping type and a calculation rule; the target value module is used for determining a target value of each target parameter according to the parameter mapping type and the calculation rule; the matching result module is used for matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; the resource characteristic data stored in the database is obtained by extracting the characteristics of communication resources in the target area; and the resource exploration module is used for obtaining the resource exploration result of the special line to be surveyed based on the matching result.

The invention also provides an electronic device comprising a memory, a processor and a computer program stored on the memory and operable on the processor, the processor implementing the dedicated line resource exploration method as described above when executing the program.

The present invention also provides a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements a dedicated line resource exploration method as described in any of the above.

The invention provides a method, a device, electronic equipment and a storage medium for surveying private line resources, which are used for inputting required resources of the private line to be surveyed into a surveying rule model to obtain a surveying rule output by the surveying rule model, wherein the surveying rule model comprises a corresponding relation between the required resources and target parameters, the surveying rule comprises at least one target parameter, each target parameter comprises a parameter name, a parameter mapping type and a calculation rule, a target value of each target parameter is determined according to the parameter mapping type and the calculation rule, the target value of each target parameter is matched with resource feature data of corresponding parameter names in a database to obtain a matching result, and the resource surveying result of the private line to be surveyed is obtained based on the matching result, wherein the resource feature data stored in the database is obtained by extracting the features of communication resources of a target area. According to the method, the required resources of the special line to be surveyed are converted into the surveying rule by using the surveying rule model, the target value of each parameter included in the surveying rule is calculated, the target value is matched with the corresponding resource characteristic data in the database, the resource surveying result of the special line to be surveyed is obtained based on the matching result, manual resource surveying is not needed, the cost of resource surveying is reduced, the efficiency of resource surveying is improved, the possibility of errors of the surveying result due to uncertainty of manual surveying is avoided, and efficient and accurate surveying of resources is realized.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic flow chart of a dedicated line resource exploration method according to the present invention;

FIG. 2 is an exemplary diagram of a conditional computing configuration;

FIG. 3 is a flow chart illustrating execution of the survey rules of the present invention;

FIG. 4 is a second flow chart of the dedicated line resource exploration method according to the present invention;

FIG. 5 is a flow chart of the automatic survey rule customization method provided by the invention;

FIG. 6 is a flow chart of the method for constructing the survey rule model provided by the invention;

FIG. 7 is a schematic diagram of a dedicated line resource exploration device according to the present invention;

fig. 8 is a schematic structural diagram of an electronic device provided by the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The traditional dedicated line resource investigation method is usually used for carrying out manual resource investigation, and the method is low in efficiency, needs to consume a large amount of time and labor cost, and can cause errors in investigation results due to uncertainty of manual investigation.

Based on the above, the invention provides a dedicated line resource investigation method, a device, electronic equipment and a storage medium, which are used for solving the defects of low artificial resource investigation efficiency, high cost and possible error of investigation results in the prior art.

Referring to fig. 1, fig. 1 is a flow chart of a dedicated line resource exploration method provided by the present invention, in this embodiment, the dedicated line resource exploration method specifically includes steps 110 to 140, and each step specifically includes:

step 110: and inputting the required resources of the special line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model.

Under different business scenes, the construction requirements of the private line are different, and the resources for constructing the private line are also different. For example, some dedicated lines are mainly used to achieve high-speed transmission of data, and thus require high-speed network devices and transmission lines, while other dedicated lines are required to ensure network stability, and thus require more backup and redundant devices. Therefore, before the private line is built, the type and the number of the required private line resources are determined according to the construction requirement of the private line, and the resources for constructing the private line are surveyed to judge whether the existing private line resources meet the construction requirement.

Further, after the required resources of the special line to be surveyed are determined according to the requirements of the special line construction, the required resources of the special line to be surveyed can be input into the survey rule model, and the survey rule output by the survey rule model is obtained.

The investigation rule model comprises a corresponding relation between required resources and target parameters; the survey rules include at least one target parameter, each target parameter including a parameter name, a parameter mapping type, and a calculation rule.

It should be noted that the exploration rule may be used to describe the resource requirement and the construction condition of the line to be surveyed, for example, if the exploration rule includes two target parameters of the broadband and the high-speed transmission device, it is described that the line to be surveyed has specific requirements on the broadband resource and the high-speed transmission device resource. The survey rules may be generated based on line resource requirements and a survey rule model.

The investigation rule model can comprehensively analyze the resources required by the special line to be investigated according to specific business scenes and requirements, extract all target parameters required by the special line to be investigated, determine the parameter names, the parameter mapping types and the calculation rules corresponding to the target parameters, and further generate the investigation rules corresponding to the special line to be investigated.

The establishment of the investigation rule model needs to consider different special line construction requirements and resource allocation conditions. For example, a private line may need multiple parameters such as standard address, resource type, longitude and latitude, access radius, service guarantee level, broadband, etc. to determine the resource requirement, meanwhile, the data source of each parameter may be different, part of the parameters may be fixed values, and part of the parameters may need to be obtained through calculation. Therefore, the investigation rule model needs to comprehensively analyze the requirements of all special lines, extract the corresponding relation between the required resources of all special lines and the target parameters, and determine the types and mapping types of the parameters so as to meet the diversified special line investigation requirements.

Step 120: and determining the target value of each target parameter according to the parameter mapping type and the calculation rule.

The survey rules include at least one target parameter, each target parameter including a parameter name, a parameter mapping type, and a calculation rule. The parameter name is used for identifying the resources required by the special line to be surveyed, for example, the parameter name can be a standard address, a resource type and the like; the parameter mapping type is used for describing the data source mode of the parameter, for example, the data source of the parameter can be a fixed value, can be a single value, and can also be a conditional calculation value; the calculation rule refers to a specific rule of mathematical calculation or logical calculation of the parameter, for example, union, summation, etc. of a plurality of data, and the calculation rule may be adjusted according to actual requirements, which is not limited in this embodiment.

When the survey rules include a plurality of target parameters, the target value for each target parameter needs to be determined based on the parameter mapping type and the calculation rules. For example, when the survey rule includes three parameters of a resource type, a longitude and a latitude, a target value of the resource type needs to be determined according to a parameter mapping type and a calculation rule of the parameter resource type, a target value of the longitude is determined according to a parameter mapping type and a calculation rule of the parameter longitude, and a target value of the latitude is determined according to a parameter mapping type and a calculation rule of the parameter latitude.

When the investigation rule comprises a target parameter, it is only necessary to determine a target value based on the parameter mapping type and the calculation rule of the parameter.

Step 130: and matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result.

The resource characteristic data stored in the database is obtained by extracting the characteristics of the communication resources of the target area.

Specifically, when the exploration rule includes multiple target parameters, it is necessary to determine a target value of each target parameter according to a parameter mapping type and a calculation rule, and match the target value of each target parameter with resource feature data of a corresponding parameter name in the database. For example, when the exploration rule includes two parameters of longitude and latitude, it is necessary to calculate target values of longitude and latitude respectively, match the target values of longitude with the resource feature data of longitude in the database, match the target values of latitude with the resource feature data of latitude in the database, and obtain matching results of the two parameters of longitude and latitude respectively.

Step 140: and obtaining a resource exploration result of the special line to be surveyed based on the matching result.

The resource characteristic data corresponding to the parameter names in the database can indicate the existing private line resources in the target area, the target parameters contained in the exploration rule can indicate the resources required by constructing the private line, and when the matching result is that the resources are successfully matched, the existing private line resources in the target area are indicated to meet the requirements of constructing the private line; when the matching result is that the resource matching fails, the fact that the existing private line resources in the target area do not meet the requirements of private line construction is indicated.

If the exploration rule comprises a plurality of target parameters, the matching result is that the resource matching is successful only when each target parameter in the exploration rule is matched with the resource characteristic data of the corresponding parameter name in the database; otherwise, the matching result is that the resource matching fails.

If the investigation rule only comprises one target parameter, when the target parameter is matched with the resource characteristic data of the corresponding parameter name in the database, the matching result is that the resource matching is successful; otherwise, the matching result is that the resource matching fails.

According to the private line resource exploration method provided by the embodiment, required resources of a private line to be surveyed are input into an exploration rule model, an exploration rule output by the exploration rule model is obtained, the exploration rule model comprises a corresponding relation between the required resources and target parameters, the exploration rule comprises at least one target parameter, each target parameter comprises a parameter name, a parameter mapping type and a calculation rule, a target value of each target parameter is determined according to the parameter mapping type and the calculation rule, the target value of each target parameter is matched with resource feature data of a corresponding parameter name in a database, a matching result is obtained, and the resource exploration result of the private line to be surveyed is obtained based on the matching result, wherein the resource feature data stored in the database is obtained by feature extraction of communication resources of a target area. According to the method, the required resources of the special line to be surveyed are converted into the surveying rule by using the surveying rule model, the target value of each parameter included in the surveying rule is calculated, the target value is matched with the corresponding resource characteristic data in the database, the resource surveying result of the special line to be surveyed is obtained based on the matching result, manual resource surveying is not needed, the cost of resource surveying is reduced, the efficiency of resource surveying is improved, the possibility of errors of the surveying result due to uncertainty of manual surveying is avoided, and efficient and accurate surveying of resources is realized.

In some embodiments, before inputting the required resources of the line to be surveyed into the survey rule model, the method further comprises: determining basic parameters according to the demand resources of the historical special line, wherein each basic parameter comprises a parameter name, a parameter type, a parameter mapping type, whether a rule is started or not and a calculation rule; a survey rule model is constructed based on the parameter name, parameter type, parameter map type, whether rules are enabled and calculated for each basic parameter.

The basic parameters are determined according to the demand resources of the historical special line, which is an important step of constructing a survey rule model, and after the basic parameters are determined, the basic parameters can be combined to form various survey rules, so that various survey demands are met.

Specifically, the demand resources of the historical special lines are comprehensively analyzed, basic parameters corresponding to the investigation resources required by all the special lines are extracted, and an investigation rule model is constructed based on the parameter name, the parameter type, the parameter mapping type, whether to enable and calculate rules of each basic parameter.

Optionally, each basic parameter includes a parameter name, a parameter type, a parameter mapping type, whether a rule is enabled and calculated.

The survey rules model contains all of the basic parameters associated with the survey resource. Basic parameters in the investigation rule model can be determined through a feature extraction algorithm, on the basis, convenient addition can be realized through manual operation, and the expansibility of the investigation rule model is improved, so that the increasingly-changing investigation requirements can be met.

In some embodiments, the target parameters include: at least one of standard address, resource type, service guarantee level, broadband, longitude and latitude, and access radius.

Standard addresses refer to standardized geographical location information for determining the specific location of a line to be surveyed, which may include provinces, cities, regions, streets, house numbers, etc. Specifically, the geographical location information is described by adopting the same format standard, for example, each piece of geographical location information needs to be accurate to the street where the geographical location information is located, a standard address table can be constructed in the database, and the standard address table stores standard addresses of all special lines to be surveyed.

The resource type refers to the type of resource required by the private line to be surveyed to access the network. The information transmission modes of different special lines to be surveyed can be different, and different information transmission modes need different types of resources to support. For example, when the information transmission mode of the private line to be surveyed is ADSL (Asymmetric Digital Subscriber Line ), the required resource type may be DSP (Digital Signal Processor ), switch, etc.; when the information transmission mode of the private line to be surveyed is FTTH (Fiber To The Home ), the required resource types may be optical fibers, optical network units, optical fiber splitters, and the like.

The service guarantee level refers to a quality level of network service provided by an operator to a customer, and is used for evaluating stability and reliability of the network service. The service security level may be designed according to service standards of different operators, which is not limited in this embodiment.

The broadband refers to the bandwidth of the dedicated line to be surveyed, and is an index for representing the maximum transmission rate that the dedicated line to be surveyed can provide.

Longitude and latitude refer to longitude and latitude information of the geographic location of the line to be surveyed.

The access radius refers to the radius of the range of the special line to be surveyed, which is the radius range which is expanded outwards by taking the position of the special line to be surveyed as the center and is used for limiting the coverage range of the special line service.

Referring to Table 1, table 1 is an example of a survey rule model table.

TABLE 1

Specifically, assuming that the required resources of the historical private line include 6 parameters, which are respectively a standard address, a resource type, a service guarantee level, a broadband, a longitude and latitude, and an access radius, the basic parameters can be determined to be respectively the standard address, the resource type, the service guarantee level, the broadband, the longitude, the latitude, and the access radius.

For ease of management, the parameter names and corresponding parameter types of each basic parameter in the survey rule model may be made to correspond to the parameter names and parameter types of the resource profile data stored in the database.

The parameter mapping types of each parameter in the investigation rule model can comprise a fixed value, a single value or a conditional calculation value.

Whether or not enabled may include both yes and no.

The calculation rule may be set as: configured at the time of the condition calculation.

It should be noted that, specific rules and parameters of the condition calculation may be configured by a technician according to actual needs, for example, calculation parameters, operators, operation values, operation output results, and the like for performing the condition calculation may be defined and selected.

Referring to table 2, table 2 is an example of a conditional computation rule parameter table.

TABLE 2

In table 2, the specific rule of the condition calculation includes 4 calculation elements: calculating parameters, operators, operation values and operation output results. Calculating parameters refers to parameters which are input in the investigation rule and are required to be calculated, and the parameter types can be defined as character types; the operator is used to represent the calculation of the calculation parameters, and the parameter type may be defined as enumeration (i.e. enumeration type, which is a set of constants in several fixed value ranges), in this embodiment, there are 4 kinds of calculation that the operator can perform: contain, not contain, equal, not equal; the operation value refers to a standard value (i.e., a specific numerical value) used in the calculation rule, and the parameter type may be defined as a character type; the operation output result refers to a result obtained after calculation in the investigation rule, and the parameter type may be defined as a character type.

Referring to fig. 2, fig. 2 is an exemplary diagram of a conditional computing arrangement. In this embodiment, if dedicated line resources with a PON bearer mode and non-PON bearer mode need to be screened out respectively, rules and parameters of condition calculation may be configured respectively.

Specifically, when a special line with a load-bearing mode of PON needs to be screened out, calculating parameters as the load-bearing mode, wherein an operator is equal to the PON, and the output result is POS and ONU; when a special line with a non-PON bearing mode needs to be screened, the calculation parameters are the bearing mode, the operators are unequal, the operation value is PON, and the output results are PTN, SDH, OTN and SPN.

It should be noted that, the carrying manner refers to a manner of information transmission in a dedicated line to be surveyed, that is, a carrier of signal transmission, different carrying manners need different types of resources to support, and in some embodiments, the carrying manner may be used to reflect the types of resources; PON (Passive Optical Network ) is based on an optical fiber transmission technology, and the loading mode is PON, which means that the private line is constructed based on PON technology; the special line with the load bearing mode being the PON can be realized based on a POS (Passive Optical Splitter, a passive optical splitter) and an ONU (Optical Network Unit, an optical network unit); the dedicated line carrying the non-PON can be implemented based on PTN (Packet Transport Network ), SDH (Synchronous Digital Hierarchy, synchronous digital hierarchy), OTN (Optical Transport Network ) and SPN (Synchronous Packet Network, packet switched network).

With continued reference to Table 1, the parameter mapping types, whether to enable, and the calculation rules of each parameter in the survey rule model are all available for the technician to configure according to the actual survey requirements; a survey rule model may be constructed based on the parameter name, parameter type, parameter map type, whether rules are enabled and calculated for each basic parameter.

In some embodiments, inputting the required resources of the private line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model, including: determining whether basic parameters in a survey rule model are started according to the required resources of the special line to be surveyed; selecting the enabled basic parameters as target parameters, and determining the parameter mapping types of the target parameters; the parameter mapping type comprises a fixed value, a single value or a conditional calculation value; determining a corresponding calculation rule based on the parameter mapping type of the target parameter; and obtaining the investigation rule based on the target parameter, the parameter mapping type of the target parameter and the corresponding calculation rule.

Specifically, according to the required resources of the special line to be surveyed, whether the basic parameters in the survey rule model are started or not is determined. The survey rule model includes all basic parameters, but not necessarily all parameters need to be used for the line to be surveyed, for example, the parameters of the survey rule model may include the type of router, the server provider, the broadband, the standard address, the number of network interfaces, etc., but the line to be surveyed may only require broadband, the parameter broadband may be set to be enabled, and the other parameters may be set to be not enabled.

Further, selecting the enabled basic parameters as target parameters, and determining the parameter mapping type of the target parameters; wherein the parameter mapping type comprises a fixed value, a single value or a conditional calculation value.

It should be noted that the fixed value refers to that the parameter of all special lines is a preset fixed value; the single value means that the parameters of different special lines are determined by the characteristics of the special lines, and the parameters of the different special lines can be inconsistent; the condition calculation value refers to that the parameter needs to be obtained by condition calculation according to a plurality of data of a special line.

Further, determining a corresponding calculation rule based on the parameter mapping type of the target parameter; and obtaining the investigation rule based on the target parameter, the parameter mapping type of the target parameter and the corresponding calculation rule.

In some embodiments, inputting the required resources of the private line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model, including: inputting the required resources of the special line to be surveyed into a survey rule model to obtain a first survey rule and a second survey rule which are output by the survey rule model, wherein the priority of the first survey rule is higher than that of the second survey rule; the first survey rule and the second survey rule are different; determining a target value of each target parameter according to the parameter mapping type and the calculation rule, and matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; obtaining a resource exploration result of a special line to be surveyed based on the matching result, comprising: determining a first target value of each target parameter according to the first parameter mapping type and a first calculation rule; wherein each target parameter of the first survey rule includes a first parameter name, a first parameter mapping type, and a first calculation rule; matching the first target value with the resource characteristic data corresponding to the first parameter name in the database to obtain a first matching result; if the first target value is matched with the resource characteristic data corresponding to the first parameter name in the database, obtaining a resource exploration result of the special line to be surveyed based on the first matching result; if the first target value is not matched with the resource characteristic data corresponding to the first parameter name in the database, a second matching result is obtained through a second investigation rule, and a resource investigation result of the special line to be investigated is obtained based on the second matching result.

Specifically, the required resources of a special line to be surveyed are input into a survey rule model, and a first survey rule and a second survey rule which are output by the survey rule model are obtained, wherein the first survey rule and the second survey rule are different; wherein the first survey rule has a higher priority than the second survey rule.

For a line to be surveyed, the line to be surveyed can be built in different modes, for example, a line to be surveyed has a requirement on the maximum data volume of single transmission, the line to be surveyed can be built by adopting equipment with large data volume of single transmission, or the line to be surveyed can be built by adopting equipment with small data volume of combined multiple single transmission, and equipment resources required by two building modes are different, so that the survey rule model can respectively customize two different survey rules according to the two building modes.

Further, for different investigation rules, the ranking may be performed by setting priorities. Different construction modes have respective advantages and disadvantages, the selection needs to be carried out according to specific application scenes, and the priorities of different investigation rules can be adjusted by a person skilled in the art according to actual investigation requirements.

Further, determining a target value of each target parameter according to the parameter mapping type and the calculation rule, and matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result.

Specifically, after determining the target value of each target parameter according to the parameter mapping type and the calculation rule, the resource characteristic data of the corresponding parameter name needs to be obtained from the database, and the target value of each target parameter is matched with the resource characteristic data of the corresponding parameter name in the database, so as to obtain the matching result of each target parameter.

Further, determining a first target value of each target parameter according to the first parameter mapping type and the first calculation rule; wherein each target parameter of the first survey rule includes a first parameter name, a first parameter mapping type, and a first calculation rule; matching the first target value with the resource characteristic data corresponding to the first parameter name in the database to obtain a first matching result; if the first target value is matched with the resource characteristic data corresponding to the first parameter name in the database, obtaining a resource exploration result of the special line to be surveyed based on the first matching result; if the first target value is not matched with the resource characteristic data corresponding to the first parameter name in the database, a second matching result is obtained through a second investigation rule, and a resource investigation result of the special line to be investigated is obtained based on the second matching result.

Referring to fig. 3, fig. 3 is a schematic flow chart of the execution of the exploration rule of the present invention.

Specifically, if the line to be surveyed corresponds to a plurality of survey rules, different priorities may be set for each rule. When resource investigation is carried out, each investigation rule is executed in sequence according to the priority order, if the matching result of the current investigation rule is that the resource matching is successful, the resource investigation result of the special line to be investigated is that the existing special line resource of the target area meets the requirement of special line construction, and other investigation rules are not executed; if the matching result of the current investigation rule is that the resource matching fails, judging whether the investigation rule with the other priority exists, if so, continuing to execute, and if not, returning the matching result of the current investigation rule.

For example, a specific line to be surveyed corresponds to three survey rules, which are respectively marked as rule 1, rule 2 and rule 3, wherein the priority of rule 1 is highest, the priority of rule 2 is lower than rule 1, and the priority of rule 3 is lower than rule 2. When resource investigation is carried out, firstly executing the rule 1, and if the matching result of the rule 1 is that the resource matching is successful, returning the matching result of the rule 1, and not executing the rule 2 and the rule 3; if the matching result of the rule 1 is that the resource matching fails, executing the rule 2, and if the matching result of the rule 2 is that the resource matching is successful, returning the matching result of the rule 2, and not executing the rule 3; if the matching results of the rule 1 and the rule 2 are resource matching failure, executing the rule 3, and if the matching result of the rule 3 is resource matching success, returning the matching result of the rule 3; if the matching results of rule 1, rule 2 and rule 3 are all resource matching failure, the returned matching result is resource matching failure.

When the matching result is that the resource matching is successful, the existing private line resource in the target area is indicated to meet the requirement of private line construction; when the matching result is that the resource matching fails, the fact that the existing private line resources in the target area do not meet the requirements of private line construction is indicated.

In some embodiments, inputting the required resources of the private line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model, including: inputting the first required resources of the first special line to be surveyed into the survey rule model to obtain a third survey rule output by the survey rule model; inputting a second required resource of a second special line to be surveyed into the survey rule model to obtain a fourth survey rule output by the survey rule model; wherein the third survey rule and the fourth survey rule are different.

In an actual private line construction scene, resources of a plurality of private lines are often required to be simultaneously surveyed, if different private lines are surveyed one by one manually, the cost is high, the speed is low, and the period is long. Therefore, the parallel investigation processing of a plurality of special lines can be realized, the efficiency of special line investigation can be obviously improved, the investigation cost can be reduced, and the investigation period can be shortened.

Optionally, the required resources of different lines to be surveyed are input into the survey rule model, so that the corresponding survey rules of different lines to be surveyed can be obtained simultaneously, and the different lines to be surveyed and the corresponding survey rules are bound, thereby realizing the parallel survey processing of the different lines to be surveyed.

In some embodiments, before matching the target value of each target parameter with the resource feature data of the corresponding parameter name in the database, the method further comprises: acquiring communication resources of the current region; extracting the characteristics of the communication resources to obtain resource characteristic data, wherein each parameter in the resource characteristic data comprises a parameter name and an acquisition value; and establishing a collected data model according to the resource characteristic data, and storing the collected data model into a database.

Before resource investigation, the resource condition available for constructing the private line needs to be determined, so that the total acquisition of the existing resource data of each region (such as target province, target district, county and the like) is required, including the distribution condition of stations and machine rooms of each region, the types and the number of transmission equipment and ports, the parameters of an optical fiber distribution box, an optical transceiver, a router, an exchange and the like. After data collection is completed, the collected resource data may be preprocessed, for example, the data may be cleaned, filtered, de-duplicated, and normalized for subsequent analysis and feature extraction.

Further, after preprocessing the communication resource data of the target area, feature data related to investigation, such as standard address, coverage longitude and latitude and coverage, coverage access mode, coverage status, coverage device type, coverage device name and ID, number of idle ports of the coverage device, bandwidth, etc., can be extracted through a feature selection algorithm, and the extracted resource feature data is stored in a database.

Preferably, a model can be built based on the extracted resource feature data, and the model is used for standardizing the type, the storage mode and the like of the resource feature data, the resource feature data contained in the model are stored in a database to serve as a data source of subsequent resource investigation, and parameters in the model are made to correspond to the parameter names, the parameter types, the parameter mapping types and the like of target parameters in the investigation rule model, so that data matching is facilitated. For example, the resource feature data stored in the database includes a parameter access radius, the parameter type of the access radius is integer (i.e. data without decimal part), the parameter mapping type is a fixed value, and the parameter type of the parameter access radius in the investigation rule model is integer, and the parameter mapping type is also a fixed value.

Referring to fig. 4, fig. 4 is a second flowchart of the dedicated line resource exploration method provided by the present invention. In this embodiment, the dedicated line resource exploration method specifically includes steps 410 to 440, and each step specifically includes the following steps:

step 410: and acquiring communication resource data of the current region, and cleaning, filtering, removing the weight and standardizing the data.

Specifically, the method comprises collecting the total data of the existing resources in each region (such as target province, target district city, target district, county, etc.), including the distribution of stations and machine rooms, PTN resources, OTN resources, MSTP (Multi-Protocol Label Switching Transport Profile, multi-protocol Label switching Transmission Profile) resources, OLT (Optical Line Terminal) _， Optical line termination) equipment, etc.

Step 420: feature data related to the survey is extracted by a feature selection algorithm and the extracted resource feature data is stored in a database.

The feature data may include standard addresses, overlay longitude and latitude and coverage, overlay access mode, overlay status, overlay device type, overlay device name and ID, overlay device number of idle ports, bandwidth, etc., and model the extracted resource feature data and store it in a database.

Step 430: and determining basic parameters according to the extracted resource characteristic data, constructing a survey rule model, and generating survey rules of different special lines to be surveyed by using the survey rule model.

Referring to fig. 5, fig. 5 is a flow chart of the automatic investigation rule customization method provided by the present invention, in this embodiment, the automatic investigation rule customization method specifically includes steps 510 to 530, and each step specifically includes the following steps:

step 510: and determining basic parameters according to the extracted resource characteristic data, and automatically constructing a survey rule model.

Step 520: and inputting the required resources of different special lines to be surveyed into a survey rule model to obtain the corresponding survey rules of the different special lines to be surveyed.

Step 530: binding different lines to be surveyed and corresponding survey rules.

Through the steps, customization of the investigation rule can be realized.

Step 440: and executing the investigation rules generated by the investigation rule model.

Specifically, the exploration rules of different lines to be surveyed can be executed in parallel, the resource exploration result of each line to be surveyed is obtained, and the resource exploration result is output.

The invention also provides a specific example of the dedicated line resource exploration method.

Referring to fig. 6, fig. 6 is a flow chart of the method for constructing the survey rule model according to the present invention, in this embodiment, it is assumed that three dedicated lines to be surveyed are three, which are respectively designated as dedicated line a, dedicated line B and dedicated line C. The special line A can be built in two modes, wherein the first building mode has requirements on standard addresses and resource types, and the second building mode has requirements on longitude and latitude, access radius and resource types; the special line B is built in a mode, and standard addresses and service guarantee grades are required; the special line C is built in a mode, and has requirements on longitude and latitude, access radius and broadband.

And determining basic parameters of the model according to the construction requirements of three special lines to be surveyed. Specifically, intersection is calculated on the parameter types of three special lines to be surveyed, so that basic parameters of the model can be obtained: standard address, resource type, service level, broadband, latitude and longitude, and access radius.

Further, a survey rule model is constructed based on the parameter name, parameter type, parameter mapping type, whether rules are enabled and calculated for each basic parameter. Wherein, the constructed investigation rule model can refer to table 1.

It should be noted that the above is only one example of a method for constructing a survey rule model, and in an actual application scenario, the data such as the construction requirement of the line to be surveyed, the basic parameters of the model, and the like also include other types, and a technician may build different survey rule models according to the actual requirement, which is not limited in this embodiment.

Further, on the premise of possessing a survey rule model, specific rule creation is carried out by setting three conditions of parameter mapping type, whether rule starting and calculation are carried out.

Specifically, 2 corresponding survey rules may be determined for the needs of line a.

Referring to table 3, table 3 shows the first survey rule of the private line a in the survey rule model.

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TABLE 3 Table 3

The first survey rule of the private line a corresponds to the first construction mode of the private line a. In this rule, only two parameters, standard address and resource type, are enabled. In this embodiment, the resource type may be determined according to the dedicated line resource type.

Referring to table 4, table 4 shows a second survey rule of the private line a in the survey rule model.

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TABLE 4 Table 4

The second survey rule of the private line a corresponds to the second construction mode of the private line a. In this rule, only 4 parameters of longitude, latitude, access radius and resource type are enabled. In this embodiment, the resource types may be determined according to the service security level, and in this embodiment, it is assumed that the service security level may be classified into a level one, a level two, and a level three, where a higher level indicates a better stability of the network, and a higher data transmission efficiency, and the resource types required to be used for different service security levels are different.

Referring to table 5, table 5 shows the survey rule of the private line B in the survey rule model.

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TABLE 5

The investigation rule of the special line B corresponds to the construction mode of the special line B. In this rule, only two parameters, standard address and service level are enabled.

Referring to table 6, table 6 shows the survey rules of the special line C in the survey rule model.

TABLE 6

The investigation rule of the special line C corresponds to the construction mode of the special line C. In this rule, only 4 parameters of longitude, latitude, access radius and broadband are enabled.

Further, after a specific survey rule is created, the survey rule is bound to the corresponding private line.

Because the private line a binds the two investigation rules, corresponding priorities may be set for the two investigation rules bound by the private line a, for example, a first investigation rule of the private line a is set to have a higher priority than a second investigation rule of the private line a.

Optionally, after a specific survey rule is created, corresponding test data may be configured for each survey rule for verifying whether the rule configuration is correct.

Further, when the private line to be surveyed triggers the automatic survey function, all the survey rules bound to the private line can be queried and acquired first, and are ordered according to the priority, then each rule is executed in turn, and if the survey rule with high priority can be successfully matched with the corresponding resource, the survey rule with low priority is not executed.

Further, a resource exploration result of the special line to be surveyed is obtained according to the result of the execution of the exploration rule.

The private line resource exploration device provided by the invention is described below, and the private line resource exploration device described below and the private line resource exploration method described above can be correspondingly referred to each other.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a dedicated line resource exploration device according to the present invention.

In this embodiment, the dedicated line resource exploration device includes an exploration rule module 710, a target value module 720, a matching result module 730, and a resource exploration module 740.

The survey rule module 710 is configured to input a required resource of a special line to be surveyed into the survey rule model to obtain a survey rule output by the survey rule model; wherein the survey rules comprise surveying at least one target parameter, each target parameter comprising a parameter name, a parameter mapping type and a calculation rule.

The target value module 720 is configured to determine a target value of each target parameter according to the parameter mapping type and the calculation rule.

A matching result module 730, configured to match the target value of each target parameter with the resource feature data of the corresponding parameter name in the database, so as to obtain a matching result; the resource characteristic data stored in the database is obtained by extracting the characteristics of the communication resources of the target area.

The resource exploration module 740 is configured to obtain a resource exploration result of the line to be surveyed based on the matching result.

The invention also provides an electronic device, refer to fig. 8, and fig. 8 is a schematic structural diagram of the electronic device provided by the invention. In this embodiment, the electronic device may include a processor (memory) 810, a memory (processor) 820, and a computer program stored on the memory 820 and executable on the processor 810. The processor 810 implements the dedicated line resource exploration method provided by each of the methods described above when executing the program.

Optionally, the electronic device may further comprise a communication bus 830 and a communication interface (Communications Interface) 840, wherein the processor 810, the communication interface 840, and the memory 820 complete communication with each other via the communication bus 830. Processor 810 may invoke logic instructions in memory 820 to perform a private line resource exploration method comprising: inputting the required resources of the special line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model; the investigation rule model comprises a corresponding relation between required resources and target parameters; the investigation rule comprises at least one target parameter, and each target parameter comprises a parameter name, a parameter mapping type and a calculation rule; determining a target value of each target parameter according to the parameter mapping type and the calculation rule; matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; the resource characteristic data stored in the database is obtained by extracting the characteristics of communication resources in the target area; and obtaining a resource exploration result of the special line to be surveyed based on the matching result.

Further, the logic instructions in memory 820 described above may be implemented in the form of software functional units and stored in a computer-readable storage medium when sold or used as a stand-alone product. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The present invention also provides a non-transitory computer readable storage medium, on which a computer program is stored, which when executed by a processor, implements a dedicated line resource exploration method provided by the above methods, and the steps and principles thereof are described in detail in the above methods and are not described herein.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The dedicated line resource investigation method is characterized by comprising the following steps:

inputting the required resources of the special line to be surveyed into a survey rule model to obtain a survey rule output by the survey rule model; the investigation rule model comprises a corresponding relation between required resources and target parameters; the investigation rule comprises at least one target parameter, and each target parameter comprises a parameter name, a parameter mapping type and a calculation rule;

determining a target value of each target parameter according to the parameter mapping type and the calculation rule;

matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; the resource characteristic data stored in the database is obtained by extracting the characteristics of communication resources of a target area;

And obtaining a resource exploration result of the special line to be surveyed based on the matching result.

2. The line resource exploration method of claim 1, wherein before inputting the demand resource of the line to be surveyed into the exploration rule model, further comprising:

determining basic parameters according to the demand resources of the historical special line, wherein each basic parameter comprises a parameter name, a parameter type, a parameter mapping type, whether a rule is started or not and a calculation rule;

the survey rule model is constructed based on the parameter name, parameter type, parameter mapping type, whether rules are enabled and calculated for each basic parameter.

3. The method for surveying the resources of the private line according to claim 2, wherein the step of inputting the required resources of the private line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model comprises the steps of:

determining whether basic parameters in the investigation rule model are started according to the required resources of the special line to be investigated;

selecting the enabled basic parameters as the target parameters, and determining the parameter mapping types of the target parameters; wherein the parameter mapping type comprises a fixed value, a single value or a conditional calculation value;

Determining a corresponding calculation rule based on the parameter mapping type of the target parameter;

and obtaining the investigation rule based on the target parameter, the parameter mapping type of the target parameter and the corresponding calculation rule.

4. The method for surveying the resources of the private line according to claim 1, wherein the step of inputting the required resources of the private line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model comprises the steps of:

inputting the required resources of the special line to be surveyed into a survey rule model to obtain a first survey rule and a second survey rule which are output by the survey rule model, wherein the priority of the first survey rule is higher than that of the second survey rule; the first survey rule and the second survey rule are not identical;

the target value of each target parameter is determined according to the parameter mapping type and the calculation rule, and the target value of each target parameter is matched with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; obtaining a resource exploration result of the special line to be surveyed based on the matching result, including:

determining a first target value of each target parameter according to the first parameter mapping type and a first calculation rule; wherein each target parameter of the first survey rule includes a first parameter name, a first parameter mapping type, and a first calculation rule;

Matching the first target value with the resource characteristic data corresponding to the first parameter name in the database to obtain a first matching result;

if the first target value is matched with the resource characteristic data corresponding to the first parameter name in the database, obtaining a resource exploration result of the special line to be surveyed based on the first matching result;

if the first target value is not matched with the resource characteristic data corresponding to the first parameter name in the database, a second matching result is obtained through the second exploration rule, and a resource exploration result of the special line to be surveyed is obtained based on the second matching result.

5. The method for surveying the resources of the private line according to claim 1, wherein the step of inputting the required resources of the private line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model comprises the steps of:

inputting a first required resource of a first special line to be surveyed into the survey rule model to obtain a third survey rule output by the survey rule model;

inputting a second required resource of a second special line to be surveyed into the survey rule model to obtain a fourth survey rule output by the survey rule model;

Wherein the third survey rule and the fourth survey rule are different.

6. The private line resource exploration method according to claim 1, wherein before said matching the target value of each target parameter with the resource feature data of the corresponding parameter name in the database, further comprising:

acquiring communication resources of the current region;

extracting the characteristics of the communication resources to obtain resource characteristic data, wherein each parameter in the resource characteristic data comprises a parameter name and an acquisition value;

and establishing a data collection model according to the resource characteristic data, and storing the data collection model into a database.

7. The dedicated line resource exploration method of claim 1, wherein said target parameters comprise: at least one of standard address, resource type, service guarantee level, broadband, longitude and latitude, and access radius.

8. A dedicated line resource exploration device, comprising:

the survey rule module is used for inputting the required resources of the special line to be surveyed into the survey rule model to obtain the survey rule output by the survey rule model; the investigation rule comprises investigation of at least one target parameter, wherein each target parameter comprises a parameter name, a parameter mapping type and a calculation rule;

The target value module is used for determining a target value of each target parameter according to the parameter mapping type and the calculation rule;

the matching result module is used for matching the target value of each target parameter with the resource characteristic data of the corresponding parameter name in the database to obtain a matching result; the resource characteristic data stored in the database is obtained by extracting the characteristics of communication resources of a target area;

and the resource exploration module is used for obtaining the resource exploration result of the special line to be surveyed based on the matching result.

9. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor implements the dedicated line resource investigation method of any of claims 1-7 when the program is executed by the processor.

10. A non-transitory computer readable storage medium having stored thereon a computer program, which when executed by a processor implements the dedicated line resource investigation method of any of claims 1 to 7.