CN106954226B - Feedback method and system for configuration condition of base station module - Google Patents

Abstract

The invention relates to the technical field of communication, in particular to a feedback method and a system for a base station module configuration condition, which realize the feedback of the module configuration condition through the following steps: acquiring a request message sent by the integrated pico base station, wherein the request message comprises request configuration information of each module of the integrated pico base station; acquiring configuration files corresponding to the request configuration information of each module; sending the configuration file to a corresponding module; configuring each module according to the configuration file; obtaining configuration information according to the configuration condition of each module within preset time, wherein the configuration information comprises information of success and failure of configuration of each module; and acquiring the configuration information. According to the invention, the initial conditions of each module are uniformly fed back through the acquired configuration information, so that the configuration information of each module can be timely known, and the feedback efficiency of the configuration conditions of each module can be improved.

Description

Feedback method and system for configuration condition of base station module

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and a system for feeding back a configuration status of a base station module.

Background

The Nanocell is a novel mobile access product form integrating Small Cell and telecommunication WLAN and a system scheme thereof, which are provided by the China Mobile research institute combined industry from the development perspective of a future mobile broadband network, the low-cost high-bandwidth mobile access scheme can solve the problem of data traffic surge brought by the mobile Internet, an operator deploys and maintains the Nanocell in a hot spot or an area needing blind repair, the safety of equipment, signaling and data transmission is ensured through a reliable safety mechanism, and the Nanocell has a good market application prospect.

In the actual maintenance process of a Nanocell device (a Nanocell device, an integrated pico-base station), remote configuration is usually performed through an external management platform, and when the external management platform configures the Nanocell device, various configuration items are randomly combined, that is, related configuration items of different functions are likely to be issued to the device together, so that the device is required to be capable of accurately distributing the configuration items of different functions to corresponding modules for respective processing. In addition, after the management platform sends the configuration request to the device, the device is expected to reply a uniform response message to the management platform and inform whether each configuration item is successfully validated online, and the device is not expected to obtain the configuration request response messages for many times.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the invention provides a feedback method and a feedback system for the configuration condition of a base station module, which realize the uniform configuration of each module of a base station, can uniformly feed back the configuration information of each module in time and improve the feedback efficiency of the configuration condition of the base station.

In order to solve the above technical problem, the present invention provides a feedback method for a configuration status of a base station module, comprising the following steps:

s1: acquiring a request message sent by the integrated pico base station, wherein the request message comprises request configuration information of each module of the integrated pico base station;

s2: acquiring configuration files corresponding to the request configuration information of each module;

s3: sending the configuration file to a corresponding module;

s4: configuring each module according to the configuration file;

s5: obtaining configuration information according to the configuration condition of each module within preset time, wherein the configuration information comprises information of success and failure of configuration of each module;

s6: and acquiring the configuration information.

The invention also provides a feedback system of the configuration condition of the base station module, which comprises the following steps:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring a request message sent by the integrated pico base station, and the request message comprises request configuration information of each module of the integrated pico base station;

the second acquisition module is used for acquiring configuration files corresponding to the request configuration information of each module;

the first sending module is used for sending the configuration file to a corresponding module;

the first initialization module is used for configuring each module according to the configuration file;

the third acquisition module is used for acquiring configuration information according to the configuration condition of each module within preset time, wherein the configuration information comprises information of success and failure of configuration of each module;

and the fourth acquisition module is used for acquiring the configuration information.

The invention has the beneficial effects that:

the method comprises the steps of obtaining a request message sent by an integrated pico-base station, wherein the request message comprises request configuration information of each module of the integrated pico-base station; the configuration information feedback method comprises the steps of sending configuration files corresponding to request configuration information to each corresponding module, accurately sending different configuration files to the corresponding modules through the method, configuring each module through the corresponding configuration files, obtaining the configuration information according to the configuration condition of each module within preset time, and uniformly feeding back the initial condition of each module through the obtained configuration information, so that the configuration information of each module is guaranteed to be known in time, and meanwhile, the feedback efficiency of the configuration condition of each module is improved; the method realizes the relevant configuration files of different functions of each module, accurately sends the configuration files to the modules, ensures the normal configuration of each module, enables maintenance personnel to know the configuration condition of each module in time through configuration information, is convenient to find out the corresponding module with problems in the base station through the module with failed configuration, improves the maintenance efficiency of the base station and reduces the maintenance cost of the integrated pico-base station.

Drawings

Fig. 1 is a schematic diagram illustrating main steps of a feedback method for configuration status of a base station module according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a step of a feedback method for a configuration status of a base station module according to a first embodiment of the present invention;

fig. 3 is a flowchart of a feedback method for configuration status of a base station module according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a feedback system for a configuration situation of a base station module according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a first obtaining module and a third obtaining module according to an embodiment of the present invention;

description of reference numerals:

1. a first acquisition module; 2. a second acquisition module; 3. a first sending module; 4. a first initialization module; 5. a third obtaining module; 6. a fourth obtaining module; 7. a second initialization module; 8. setting a module; 9. a fifth obtaining module; 10. a second sending module; 11. a third initialization module; 12. a first preset unit; 13. a second preset unit; 14. a transmitting unit; 15. a first acquisition unit; 16. a second acquisition unit; 17. an initialization unit; 18. a setting unit; 19. a self-adding unit; 20. a third acquisition unit; 21. a fourth acquisition unit; 22. and a fifth acquiring unit.

Detailed Description

In order to explain technical contents, objects and effects of the present invention in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

The most key concept of the invention is as follows: and acquiring and sending configuration files corresponding to the configuration information requested by each module, configuring each module, acquiring the configuration condition within the preset time and performing unified feedback, thereby improving the feedback efficiency of the configuration condition of the base station.

Referring to fig. 1 to 3, the present invention provides a feedback method for a configuration status of a base station module, including the following steps:

s1: acquiring a request message sent by the integrated pico base station, wherein the request message comprises request configuration information of each module of the integrated pico base station;

s2: acquiring configuration files corresponding to the request configuration information of each module;

s3: sending the configuration file to a corresponding module;

s4: configuring each module according to the configuration file;

s5: obtaining configuration information according to the configuration condition of each module within preset time, wherein the configuration information comprises information of success and failure of configuration of each module;

s6: and acquiring the configuration information.

As can be seen from the above description, the present invention obtains a request message sent by the integrated pico-base station, where the request message includes request configuration information of each module of the integrated pico-base station; the configuration information feedback method comprises the steps of sending configuration files corresponding to request configuration information to each corresponding module, accurately sending different configuration files to the corresponding modules through the method, configuring each module through the corresponding configuration files, obtaining the configuration information according to the configuration condition of each module within preset time, and uniformly feeding back the initial condition of each module through the obtained configuration information, so that the configuration information of each module is guaranteed to be known in time, and meanwhile, the feedback efficiency of the configuration condition of each module is improved; the method realizes the relevant configuration files of different functions of each module, accurately sends the configuration files to the modules, ensures the normal configuration of each module, enables maintenance personnel to know the configuration condition of each module in time through configuration information, is convenient to find out the corresponding module with problems in the base station through the module with failed configuration, improves the maintenance efficiency of the base station and reduces the maintenance cost of the integrated pico-base station.

Further, the S1 specifically includes:

presetting a hash table, wherein the hash table comprises a plurality of configuration types;

presetting a configuration identifier set, wherein elements of the configuration identifier set correspond to configuration types in the hash table one by one;

a preset management platform acquires a request message sent by the integrated pico base station, wherein the request message comprises request configuration information of each module of the integrated pico base station; the request configuration information comprises a configuration identifier;

acquiring a configuration type corresponding to the configuration identifier;

and obtaining a corresponding configuration file according to the configuration type.

From the above description, it can be known that the configuration type of the hash table corresponding to the configuration identifier of the module can be accurately obtained through the preset hash table, so that the management platform can accurately issue the configuration file corresponding to each module, and the accuracy of the function configuration item parameter of each module is ensured.

Further, the feedback method for the configuration condition of the base station module further includes:

initializing a preset first binary number to be 0, wherein the number of digits of the first binary number is the same as the number of modules, and each digit of the first binary number corresponds to the configuration identifier of each module one by one;

and if the management platform comprises a configuration file corresponding to the configuration identifier, setting the number of digits corresponding to the first binary number and the configuration identifier as 1.

From the above description, it can be known that the configuration files corresponding to the modules of the integrated pico-base station included in the management platform can be reflected by the digits of 1 in the first binary number, so as to accurately and correctly issue the configuration files to the corresponding modules.

Further, the feedback method for the configuration condition of the base station module further includes:

if the management platform does not comprise the configuration file corresponding to the configuration identifier, acquiring the current operating parameters of the module corresponding to the configuration identifier;

the management platform sends the operation parameters to the module;

and configuring the module according to the operation parameters.

From the above description, the management platform can accurately identify the configuration files required by each module of the integrated pico-base station, and configure the current operation parameters of the module corresponding to the function when the management platform does not have the configuration file corresponding to the function, so as to ensure that the configuration of the function can be correctly issued and take effect.

Further, the S5 specifically includes:

respectively initializing a preset module number variable and a second binary number to 0;

the number of digits of the second binary number is the same as the number of modules, and each digit of the second binary number corresponds to the configuration identifier of each module one by one;

when the module is successfully configured within the preset time, the module number variable is added with one, and the number of the second system number corresponding to the configuration identifier of the module is set to be 1;

when the module is not configured successfully in the time, the number variable of the module is added by one;

when the variable value of the number of the modules is equal to the number of digits including 1 in the first binary number, sequentially acquiring configuration identifiers corresponding to the digits which are 1 in the second binary number to obtain a successful identifier set;

sequentially acquiring configuration identifiers corresponding to the digits of 0 in the second binary number to obtain a failure identifier set;

and obtaining configuration information according to the success identification set and the failure identification set, wherein the configuration information comprises information of success and failure of configuration of each module.

According to the method, the management platform issues the corresponding configuration files to the modules, configuration information of all the modules configured through the configuration files can be obtained without errors, and feedback is carried out timely and uniformly, so that the problem that configuration information of a certain module is omitted due to the fact that the integrated pico-base station has more modules for achieving various functions is solved.

All the further, the S6 is specifically:

generating a configuration message according to the configuration information;

sending a configuration message;

obtaining the configuration type of a hash table corresponding to the element in the success identification set in the configuration message;

and acquiring the configuration type of the hash table corresponding to the element in the failure identification set in the configuration message.

From the above description, the configuration conditions of each module are uniformly fed back to the management platform in a message manner, so that the feedback efficiency is improved, and the information of success and failure of configuration of each module can be known in time, so as to facilitate subsequent maintenance and management.

Referring to fig. 4 to fig. 5, a feedback system for a configuration status of a base station module provided by the present invention includes:

the system comprises a first acquisition module 1, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring a request message sent by an integrated pico base station, and the request message comprises request configuration information of each module of the integrated pico base station;

a second obtaining module 2, configured to obtain configuration files corresponding to the configuration information requested by each module;

a first sending module 3, configured to send the configuration file to a corresponding module;

the first initialization module 4 is used for configuring each module according to the configuration file;

the third obtaining module 5 is configured to obtain configuration information according to a configuration condition of each module within a preset time, where the configuration information includes information of success and failure of configuration of each module;

and a fourth obtaining module 6, configured to obtain the configuration information.

As can be seen from the above description, the present invention obtains a request message sent by the integrated pico-base station, where the request message includes request configuration information of each module of the integrated pico-base station; the configuration information feedback method comprises the steps of sending configuration files corresponding to request configuration information to each corresponding module, accurately sending different configuration files to the corresponding modules through the method, configuring each module through the corresponding configuration files, obtaining the configuration information according to the configuration condition of each module within preset time, and uniformly feeding back the initial condition of each module through the obtained configuration information, so that the configuration information of each module is guaranteed to be known in time, and meanwhile, the feedback efficiency of the configuration condition of each module is improved; the method realizes the relevant configuration files of different functions of each module, accurately sends the configuration files to the modules, ensures the normal configuration of each module, enables maintenance personnel to know the configuration condition of each module in time through configuration information, is convenient to find out the corresponding module with problems in the base station through the module with failed configuration, improves the maintenance efficiency of the base station and reduces the maintenance cost of the integrated pico-base station.

Further, the first obtaining module 1 includes:

a first presetting unit 12, configured to preset a hash table, where the hash table includes multiple configuration types;

a second presetting unit 13, configured to preset a configuration identifier set, where elements of the configuration identifier set correspond to configuration types in the hash table one to one;

a sending unit 14, configured to obtain, by a preset management platform, a request packet sent by the integrated pico-base station, where the request packet includes request configuration information of each module of the integrated pico-base station; the request configuration information comprises a configuration identifier;

a first obtaining unit 15, configured to obtain a configuration type corresponding to the configuration identifier;

and the second obtaining unit 16 is configured to obtain a corresponding configuration file according to the configuration type.

From the above description, it can be known that the configuration type of the hash table corresponding to the configuration identifier of the module can be accurately obtained through the preset hash table, so that the management platform can accurately issue the configuration file corresponding to each module, and the accuracy of the function configuration item parameter of each module is ensured.

Further, the feedback system for the configuration status of the base station module further includes:

a second initialization module 7, configured to initialize a preset first binary number to 0, where the number of bits of the first binary number is the same as the number of modules, and each bit of the first binary number corresponds to a configuration identifier of each module one to one;

a setting module 8, configured to set, if the management platform includes a configuration file corresponding to the configuration identifier, a digit corresponding to the first binary number and the configuration identifier to 1;

a fifth obtaining module 9, configured to obtain, if the management platform does not include the configuration file corresponding to the configuration identifier, a current operating parameter of a module corresponding to the configuration identifier;

a second sending module 10, configured to send, by the management platform, the operation parameter to the module;

a third initialization module 11, configured to configure the module according to the operating parameter.

From the above description, it can be known that the configuration files corresponding to the modules of the integrated pico-base station included in the management platform can be reflected by the digits of 1 in the first binary number, so as to accurately and unmistakably issue the configuration files to the corresponding modules; meanwhile, the management platform can accurately identify the configuration files required by each module of the integrated pico-base station, and the management platform does not have the configuration files corresponding to a certain function, and the current operation parameters of the modules corresponding to the function are configured, so that the configuration of the function can be guaranteed to be correctly issued to take effect.

Further, the third obtaining module 5 includes:

an initialization unit 17, configured to initialize preset module number variables and a second binary number to 0, respectively; the number of digits of the second binary number is the same as the number of modules, and each digit of the second binary number corresponds to the configuration identifier of each module one by one;

the setting unit 18 is configured to, when a module is successfully configured within a preset time, add one to the module number variable, and set the digit corresponding to the second system number and the configuration identifier of the module to 1;

the self-adding unit 19 is used for adding one to the number variable of the module when the module is not configured successfully in the time;

a third obtaining unit 20, configured to, when the module number variable value is equal to a digit that includes 1 in the first binary number, sequentially obtain a configuration identifier corresponding to the digit that is 1 in the second binary number, so as to obtain a successful identifier set;

a fourth obtaining unit 21, configured to sequentially obtain a configuration identifier corresponding to the digit of 0 in the second binary number, so as to obtain a failure identifier set;

a fifth obtaining unit 22, configured to obtain configuration information according to the success identifier set and the failure identifier set, where the configuration information includes information of success and failure in configuration of each module.

According to the method, the management platform issues the corresponding configuration files to the modules, configuration information of all the modules configured through the configuration files can be obtained without errors, and feedback is carried out timely and uniformly, so that the problem that configuration information of a certain module is omitted due to the fact that the integrated pico-base station has more modules for achieving various functions is solved.

Referring to fig. 2 to fig. 3, a first embodiment of the present invention is:

s1: presetting a hash table, wherein the hash table comprises a plurality of configuration types;

s2: presetting a configuration identifier set, wherein elements of the configuration identifier set correspond to configuration types in the hash table one by one;

s3: a preset management platform acquires a request message sent by the integrated pico base station, wherein the request message comprises request configuration information of each module of the integrated pico base station; the request configuration information comprises a configuration identifier;

s4: acquiring a configuration type corresponding to the configuration identifier;

the method specifically comprises the following steps: acquiring the configuration type in the hash table corresponding to the configuration identifier through the correspondence between the configuration identifier set and the hash table;

s5: obtaining a corresponding configuration file according to the configuration type;

the method specifically comprises the following steps: acquiring a configuration file corresponding to the configuration type in a management platform;

s6: sending the configuration file to a corresponding module;

wherein, the functions realized by different modules are different, the configuration identifiers are different, and different configuration files are issued according to different configuration identifiers;

s7: configuring each module according to the configuration file;

s8: obtaining configuration information according to the configuration condition of each module within preset time, wherein the configuration information comprises information of success and failure of configuration of each module;

each module is configured, namely configured according to configuration parameters of a configuration file, and the configuration is successful after the configuration is finished;

s9: acquiring the configuration information; generating a configuration message according to the configuration information; sending a configuration message;

the configuration message comprises the configuration conditions of the modules, is sent to the management platform through the configuration message, and is fed back to the management platform in a unified mode, so that the feedback efficiency of the configuration conditions is improved;

s10: obtaining the configuration type of a hash table corresponding to the element in the success identification set in the configuration message; acquiring the configuration type of a hash table corresponding to an element in the failure identification set in the configuration message;

and obtaining the module which cannot be successfully configured in the time through the configuration type corresponding to the failure identifier so as to facilitate the maintenance and management of the staff.

As can be seen from the above description, the initial conditions of the modules are uniformly fed back through the acquired configuration information, so that the configuration information of the modules can be timely known, and the feedback efficiency of the configuration conditions of the modules can be improved.

The second embodiment of the invention is as follows:

the difference between the second embodiment and the first embodiment is that a method for feeding back configuration status of a base station module further includes:

initializing a preset first binary number to be 0, wherein the number of digits of the first binary number is the same as the number of modules, and each digit of the first binary number corresponds to the configuration identifier of each module one by one;

if the management platform comprises a configuration file corresponding to the configuration identifier, setting the number of digits corresponding to the first binary number and the configuration identifier as 1;

if the management platform does not comprise the configuration file corresponding to the configuration identifier, acquiring the current operating parameters of the module corresponding to the configuration identifier;

the management platform sends the operation parameters to the module;

configuring the module according to the operating parameters;

respectively initializing a preset module number variable and a second binary number to 0;

the number of digits of the second binary number is the same as the number of modules, and each digit of the second binary number corresponds to the configuration identifier of each module one by one;

when the module is successfully configured within the preset time, the module number variable is added with one, and the number of the second system number corresponding to the configuration identifier of the module is set to be 1;

through a preset timer, when one module is not configured successfully in the time, the number variable of the module is added by one;

when the variable value of the number of the modules is equal to the number of digits including 1 in the first binary number, sequentially acquiring configuration identifiers corresponding to the digits which are 1 in the second binary number to obtain a successful identifier set;

sequentially acquiring configuration identifiers corresponding to the digits of 0 in the second binary number to obtain a failure identifier set;

and obtaining configuration information according to the success identification set and the failure identification set, wherein the configuration information comprises information of success and failure of configuration of each module.

According to the description, the management platform can accurately issue the configuration file to the corresponding module by the method; meanwhile, the management platform can accurately identify the configuration files required by each module of the integrated pico-base station, the management platform does not have the configuration files corresponding to a certain function, and the current operation parameters of the modules corresponding to the function are adopted for configuration, so that the configuration of the function can be guaranteed to be correctly issued and take effect.

The third embodiment of the invention is as follows:

in fig. 3, a represents a global character string variable used for storing an original configuration request message issued by an external management platform to an integrated pico-base station, B represents a global structure variable of which functions are issued by the management platform in total and which functions finally take effect online, and the variable B has three members in total, all of which are unsigned integer numbers, namely srcbitmap, num and rstbitmap; wherein, the srcobbitmap is used for marking the configuration requests of which functions are issued by the management platform together, each function corresponds to the identifier of a one-bit unsigned integer number in the binary number (only one bit of binary number is 1, and other bits are 0, such as 0x00000001, which indicates that the identifier corresponding to the first bit of the binary number is configured, and the identifier corresponds to a certain function), if the management platform issues the configuration request of a certain function, the corresponding binary position of the srcobbitmap is 1, and if the configuration request is not issued, the corresponding binary position is 0; num is used for recording the number of the finished function configuration of the equipment, namely num is added by 1 when the equipment finishes the processing of one type of function; the rstbitmap is used for marking the online validation result of each function class, if a certain function is successfully validated online, the corresponding binary position is set to be 1, if the certain function fails online validation, the corresponding binary position is set to be 0, and the corresponding relations of the rstbitmap, the srcobbitmap and the function configuration identifier are kept consistent; the method specifically comprises the following steps:

1. defining variables A and B, wherein A is used for storing an original configuration request message issued by an external management platform, and B is used for identifying which function configuration requests issued by the management platform and final online validation results of the functions;

2. classifying the online effective configuration requests from the external management platform according to functions, and setting the corresponding binary position of the member srcobbitmap in the B to be 1 if the management platform has a configuration item for configuring a certain type of functions;

3. the configuration requests of each type of functions are respectively processed, a plurality of marking variables are used for marking which configuration items in the type of functions are configured by the external management platform, the configuration items configured by the external management platform use data configured by the external management platform, the configuration items not configured by the external management platform use the current operating parameters of the integrated pico-base station, and then the operating parameters are sent to a corresponding processing module for processing, and a timer is started;

4. if the timer started in the step 3 receives the response message of the corresponding processing module within the timeout time, writing the response result of whether the online validation is successful into the variable B member rstbitmap, if so, setting the corresponding binary position to be 1, if not, setting the binary position to be 0, adding 1 to the num value of the variable B member, and then stopping the timer; if the timer is overtime, the function on-line effective configuration is considered to be failed, the corresponding binary position in the variable B member rstbitmap is set to be 0, and the num value of the variable B member is added with 1;

5. after configuration requests issued by an external management platform are uniformly distributed to corresponding modules to be subjected to online validation processing, a cycle timer is started, and the overtime time is set according to actual requirements;

6. if the timer started in the step 5 is overtime for a set time, firstly judging whether the sum of the digits of the variable B member srcbitmap binary digit 1 is equal to the member num value, if so, writing the online validation result of each configuration item into the variable A according to the variable B member rstitmap, then responding the message A to an external management platform, finally stopping the cycle timer started in the step 5, if not, performing no processing, waiting for next overtime, and then repeating the step 6.

Referring to fig. 4 to 5, a fourth embodiment of the present invention is:

the method comprises the steps that a first preset unit presets a hash table, and the hash table comprises a plurality of configuration types; a second preset unit presets a configuration identifier set, wherein elements of the configuration identifier set correspond to configuration types in the hash table one by one; the sending unit is used for acquiring a request message sent by the integrated pico base station by a preset management platform, wherein the request message comprises request configuration information of each module of the integrated pico base station; the request configuration information comprises a configuration identifier and sends a request message to a first acquisition unit; the first obtaining unit obtains the configuration type corresponding to the configuration identification and sends the configuration type to the second obtaining unit; the second acquisition unit acquires a corresponding configuration file according to the configuration type and sends the configuration file to the first sending module; the first sending module sends the configuration file to a corresponding module; the first initialization module configures each module according to the configuration file; the second initialization module is used for initializing a preset first binary number to be 0, the number of digits of the first binary number is the same as the number of the modules, each digit of the first binary number corresponds to the configuration identifier of each module one by one, and configuration information is sent to the setting module and the fifth acquisition module; the setting module is used for setting the digit corresponding to the first binary number and the configuration identifier as 1 if the management platform comprises the configuration file corresponding to the configuration identifier; the fifth obtaining module is used for obtaining the current operating parameters of the module corresponding to the configuration identifier if the management platform does not comprise the configuration file corresponding to the configuration identifier; the second sending module is used for sending the operation parameters to the module by the management platform and sending the operation parameters to a third initialization module; the third initialization module is used for configuring the module according to the operation parameters; the initialization unit is used for respectively initializing the preset module number variable and the second binary number to 0; the number of digits of the second binary number is the same as the number of the modules, each digit of the second binary number corresponds to the configuration identification of each module one by one, and configuration information is sent to the setting unit; the setting unit is used for adding one to the module number variable when one module is successfully configured within preset time, setting the number corresponding to the configuration identifier of the module to be 1 in the second system number, and sending the module number variable to the adding unit; the self-adding unit is used for adding one to the module number variable when the module is not configured successfully in the time, and sending a self-adding result to the third obtaining unit; the third obtaining unit is used for sequentially obtaining the configuration identifier corresponding to the digit which is 1 in the second binary number when the module number variable value is equal to the digit which comprises 1 in the first binary number, so as to obtain a successful identifier set, and sending the successful identifier set to the fifth obtaining unit; the fourth obtaining unit is used for sequentially obtaining the configuration identifiers corresponding to the digits of 0 in the second binary number to obtain a failure identifier set, and sending the failure identifier set to the fifth obtaining unit; the fifth acquisition unit is used for acquiring configuration information according to the success identification set and the failure identification set, wherein the configuration information comprises information of success and failure of configuration of each module, and the configuration information is sent to the fourth acquisition module; the fourth obtaining module obtains the configuration information.

In summary, the request message sent by the integrated pico-base station is acquired, and the request message includes request configuration information of each module of the integrated pico-base station; the configuration information feedback method comprises the steps of sending configuration files corresponding to request configuration information to each corresponding module, accurately sending different configuration files to the corresponding modules through the method, configuring each module through the corresponding configuration files, obtaining the configuration information according to the configuration condition of each module within preset time, and uniformly feeding back the initial condition of each module through the obtained configuration information, so that the configuration information of each module is guaranteed to be known in time, and meanwhile, the feedback efficiency of the configuration condition of each module is improved; the method realizes the relevant configuration files of different functions of each module, accurately sends the configuration files to the modules, ensures the normal configuration of each module, enables maintenance personnel to know the configuration condition of each module in time through configuration information, is convenient to find out the corresponding module with problems in the base station through the module with failed configuration, improves the maintenance efficiency of the base station and reduces the maintenance cost of the integrated pico-base station.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. A feedback method for configuration condition of a base station module is characterized by comprising the following steps:

s1: acquiring a request message sent by the integrated pico base station, wherein the request message comprises request configuration information of each module of the integrated pico base station; the S1 specifically includes:

presetting a hash table, wherein the hash table comprises a plurality of configuration types;

presetting a configuration identifier set, wherein elements of the configuration identifier set correspond to configuration types in the hash table one by one;

a preset management platform acquires a request message sent by the integrated pico base station, wherein the request message comprises request configuration information of each module of the integrated pico base station; the request configuration information comprises a configuration identifier;

acquiring a configuration type corresponding to the configuration identifier;

obtaining a corresponding configuration file according to the configuration type;

initializing a preset first binary number to be 0, wherein the number of digits of the first binary number is the same as the number of modules, and each digit of the first binary number corresponds to the configuration identification of each module of the integrated pico-base station one by one;

if the management platform comprises a configuration file corresponding to the configuration identifier, setting the digit corresponding to the first binary number and the configuration identifier as 1;

if the management platform does not comprise the configuration file corresponding to the configuration identifier, acquiring the current operating parameters of the module corresponding to the configuration identifier;

the management platform sends the operation parameters to the module;

configuring the module according to the operating parameters;

s2: acquiring configuration files corresponding to the request configuration information of each module of the integrated pico-base station;

s3: sending the configuration file to a corresponding module;

s4: configuring each module of the integrated pico-base station according to the configuration file;

s5: obtaining configuration information according to the configuration condition of each module of the integrated pico-base station within preset time, wherein the configuration information comprises information of success and failure of configuration of each module of the integrated pico-base station;

s6: and acquiring the configuration information.

2. The method of claim 1, wherein the S5 specifically is:

respectively initializing a preset module number variable and a second binary number to 0;

the number of digits of the second binary number is the same as the number of modules, and each digit of the second binary number corresponds to the configuration identifier of each module one by one;

when the module is successfully configured within the preset time, the module number variable is added with one, and the number of the second binary number corresponding to the configuration identifier of the module is set to be 1;

when the module is not configured successfully in the time, the number variable of the module is added by one;

when the module number variable value is equal to the number of bits including 1 in the first binary number, sequentially acquiring a configuration identifier corresponding to the bit of 1 in the second binary number to obtain a successful identifier set;

sequentially acquiring configuration identifiers corresponding to the digits of 0 in the second binary number to obtain a failure identifier set;

and obtaining configuration information according to the success identification set and the failure identification set, wherein the configuration information comprises information of success and failure of configuration of each module of the integrated pico-base station.

3. The method of claim 2, wherein the S6 specifically includes:

generating a configuration message according to the configuration information;

sending a configuration message;

obtaining the configuration type of a hash table corresponding to the element in the success identification set in the configuration message;

and acquiring the configuration type of the hash table corresponding to the element in the failure identification set in the configuration message.

4. A system for feedback of base station module configuration, comprising:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring a request message sent by the integrated pico base station, and the request message comprises request configuration information of each module of the integrated pico base station;

the first obtaining module comprises:

the device comprises a first preset unit, a second preset unit and a control unit, wherein the first preset unit is used for presetting a hash table, and the hash table comprises a plurality of configuration types;

the second preset unit is used for presetting a configuration identifier set, and elements of the configuration identifier set correspond to configuration types in the hash table one by one;

the system comprises a sending unit, a receiving unit and a processing unit, wherein the sending unit is used for acquiring a request message sent by an integrated pico base station by a preset management platform, and the request message comprises request configuration information of each module of the integrated pico base station; the request configuration information comprises a configuration identifier;

a first obtaining unit, configured to obtain a configuration type corresponding to the configuration identifier;

the second obtaining unit is used for obtaining a corresponding configuration file according to the configuration type;

the feedback system for the configuration condition of the base station module further comprises:

the second initialization module is used for initializing a preset first binary number to be 0, the number of digits of the first binary number is the same as the number of modules, and each digit of the first binary number corresponds to the configuration identifier of each module of the integrated pico-base station one by one;

the setting module is used for setting the digit corresponding to the first binary number and the configuration identifier as 1 if the management platform comprises a configuration file corresponding to the configuration identifier;

a fifth obtaining module, configured to obtain, if the management platform does not include the configuration file corresponding to the configuration identifier, a current operating parameter of the module corresponding to the configuration identifier;

the second sending module is used for sending the operation parameters to the module by the management platform;

a third initialization module for configuring the module according to the operating parameters;

the second acquisition module is used for acquiring configuration files corresponding to the request configuration information of each module of the integrated pico-base station;

the first sending module is used for sending the configuration file to a corresponding module;

the first initialization module is used for configuring each module of the integrated pico-base station according to the configuration file;

the third acquisition module is used for acquiring configuration information according to the configuration condition of each module of the integrated pico-base station within the preset time, wherein the configuration information comprises information of success and failure of configuration of each module of the integrated pico-base station;

and the fourth acquisition module is used for acquiring the configuration information.

5. The system of claim 4, wherein the third obtaining module comprises:

the initialization unit is used for respectively initializing the preset module number variable and the second binary number to 0; the number of digits of the second binary number is the same as the number of modules, and each digit of the second binary number corresponds to the configuration identifier of each module of the integrated pico-base station one by one;

the setting unit is used for adding one to the module number variable when the module is successfully configured within the preset time, and setting the digit of the second binary number corresponding to the configuration identifier of the module as 1;

the self-adding unit is used for adding one to the module number variable when the module is not configured successfully in the time;

a third obtaining unit, configured to, when the module number variable value is equal to the number of bits in the first binary number that include 1, sequentially obtain a configuration identifier corresponding to the bit that is 1 in the second binary number, to obtain a successful identifier set;

a fourth obtaining unit, configured to sequentially obtain a configuration identifier corresponding to the digit of 0 in the second binary number, to obtain a failure identifier set;

and the fifth obtaining unit is used for obtaining configuration information according to the success identification set and the failure identification set, wherein the configuration information comprises information of success and failure of configuration of each module of the integrated pico-base station.

Images