[0026] The core of the technical problem to be solved by the present invention is to modularize the signaling collection and decoding functions, form a standard computer interface, and integrate with the computer platform module, so as to achieve both the signal collection and decoding capabilities of the data acquisition module and the computer interface. The powerful data processing capability and easy-to-expand capability of the platform module; at the same time, the measurement data of the mobile phone and the communication data of the A port of the switch can be collected through association so that the two data can be automatically associated and matched, and the realization of multiple scenarios such as dropped calls and location updates Communication quality analysis; In addition, the switch can automatically identify the signaling, and automatically distinguish the signaling link and the voice link, which solves the time-consuming and labor-intensive shortcoming of manual configuration once the base station restarts in the prior art, so that regardless of the base station signaling Any changes can be automatically recognized by the system without manual intervention.
[0027] Referring to FIG. 1 , this figure is a schematic composition diagram of a system for providing collection, processing and correlation analysis of massive mobile phone measurement reports and signaling data according to the present invention. Specifically, the system includes:
[0028] The signaling collection and decoding module 1 is used for data collection and decoding of network communication data; it can support multiple protocols, such as: Global System for Mobile Communications (Global System for Mobile Communications, GSM), General Packet Radio Service System (General Packet Radio Service, GPRS), Enhanced Data Rate for GSM Evolution (EDGE), etc.
[0029] The signaling access module 2 is used for accessing the collected signaling data to the computer platform module to which it belongs;
[0030] The computer platform module 3 is used to format the decoded massive raw data according to analysis requirements, and output to the database system for subsequent mining and analysis;
[0031] The automatic identification and association module 4 is used for automatic identification of signal data and organic association of various independent data, which has certain intelligent characteristics and can realize automatic processing;
[0032] Wherein, the signaling access module 2 includes a converging access module 21 and an optical splitting access module 22;
[0033] The aggregation access module 21 is used to aggregate low-speed data into high-speed data, reduce processing interfaces, simplify processing procedures, and give full play to the powerful processing capabilities of the computer platform;
[0034] The optical splitting access module 22 is used to realize the collection of communication data directly from the transmission light ring, and collect a large number of base station data;
[0035] In the specific implementation, the signaling collection and decoding module is connected to the computer bus of the computer platform module, and the transmission light ring is used to perform optical splitting access to collect mobile phone measurement data. The transmission light ring access connection mode includes the connection of the A port and the connection of the Abis port. connect.
[0036] Referring to FIG. 2 , this figure is a schematic composition diagram of an embodiment of a system for collecting, processing and correlating analysis of massive mobile phone measurement reports and signaling data according to the present invention. As shown in the figure, the base transceiver station collects the measurement report and signaling data sent from the user terminal, including the signal strength, quality and communication environment information at that time, and connects with the broadband service controller through the Abis/MR interface; the broadband service The controller is connected with the mobile switching center and the SGSGN at the same time; in the present invention, through the communication interface between the broadband service controller and the base station transceiver information station and the communication interface between the broadband service controller and the mobile switching center, the optical access data collection instrument, and the data acquisition instrument further transmits the communication data directly collected from the transmission halo to the data analysis server, and the data analysis server analyzes and processes the mobile phone measurement report and signaling data, and feeds back the processing and analysis results to the mobile communication system to do corresponding processing or recording.
[0037] By connecting the data acquisition module to the computer bus, the present invention has not only brought into play the strong signal collection and decoding capabilities of the data acquisition module, but also brought into play the powerful data processing capability and easy-to-expand ability of the computer platform. Combine the advantages of all the advantages and integrate them in one piece. Through this integration, the collection and processing of massive mobile phone measurement reports and signaling data can be realized with less equipment. Moreover, this processing method can be applied to different communication devices, which is not only flexible in configuration, but also easy to expand and maintain.
[0038] On the SDH (Digital Synchronous Serial Equipment), the transmission light ring is used to perform optical splitting access to collect mobile phone measurement data instead of the existing base station circuit access. The number of base station circuit access is as many as 3,000, and they are distributed at different physical points. Difficult to implement. After adopting the new method, it is only necessary to split optical access to the optical ring. Due to the large capacity of the optical ring, fewer interfaces, and centralized physical points, it becomes feasible to collect and process measurement data from mobile phones in the entire network.
[0039]The switch automatically recognizes the signaling, and automatically distinguishes the signaling link and the voice link, which solves the time-consuming and labor-intensive shortcoming of manual configuration once the base station is restarted in the prior art. Through this method, no matter how the base station signaling changes, the system can automatically identify it without manual intervention.
[0040] Correlation collects mobile phone measurement data and switch A port communication data so that the two types of data can be automatically correlated and matched, realizing communication quality analysis in various scenarios such as call drop and location update.
[0041] The above description is a preferred embodiment of the present invention, and it should be pointed out that for those skilled in the art, without departing from the principle of the present invention, some improvements and modifications can also be made, and these improvements and modifications are also considered Be the protection scope of the present invention.
