CN112040427B - Mobile phone management and control platform - Google Patents

Abstract

The embodiment of the invention provides a mobile phone control platform, which comprises a background control system and a host system, wherein the background control system comprises an interface presentation layer, a communication protocol layer, a database access layer and a database; the background main control system is responsible for communicating with the host system, finishing the relevant configuration and information presentation of a plurality of control devices, and the database stores the relevant configuration and information; the host system completes the management and control of the mobile phone signals in the full standard frequency range. The background management and control system is connected with the main control software of the host system, and can manage and control all the management and control equipment without being connected with all the management and control equipment one by one, configure and present information of the management and control equipment, and detect, alarm, locate and track illegal mobile phones.

Description

Mobile phone management and control platform

Technical Field

The invention belongs to the technical field of mobile communication, and particularly relates to a mobile phone control platform.

Background

In recent years, in the process of information-based construction and transformation of enterprises and public institutions, due to regional sensitivity, communication control needs to be performed on certain regions, and the demand of the communication control brings market opportunities to a mobile phone control system.

Based on current cell-phone management and control current situation and novel development needs, along with 4G communication network's commercial to and 5G technical research and breakthrough, cell-phone management and control face bigger challenge, need urgently to plan and build one set of cell-phone signal management and control system that has green low radiation, full standard high efficiency, perimeter control is accurate, highly intelligent self-adaptation, have illegal cell-phone simultaneously and listen and fix a position dual function, realize listening, report an emergency and ask for help or increased vigilance, location, pursuit illegal cell-phone. The prior invention focuses on introducing a mobile phone management and control system or on processing big data, but none of the inventions introduces a background management and control system, and the invention is generated for making up for the blank.

Disclosure of Invention

In order to overcome the existing problems or at least partially solve the problems, embodiments of the present invention provide a mobile phone management and control platform.

The embodiment of the invention provides a mobile phone control platform, which comprises a background control system and a host system, wherein the background control system comprises an interface presentation layer, a communication protocol layer, a database access layer and a database, the host system comprises host software and a plurality of control devices with different system frequency bands, the background control system is in communication connection with main control software through a TCP (transmission control protocol), and the main control software is in communication connection with each control device through the TCP;

the interface presentation layer comprises a detection management component, a configuration management component, a frequency scanning component, an alarm management component, a system homepage component and a data query component, and the communication protocol layer comprises a communication module, a protocol module and a dispatching module;

the background main control system is in charge of communicating with the host system, finishing relevant configuration and information presentation of a plurality of control devices, and the database stores the relevant configuration and information of the plurality of control devices;

and the host system completes the management and control of the mobile phone signals in the full-standard frequency range.

The embodiment of the invention also provides a mobile phone control platform, which comprises a background control system and a host system, wherein the host system comprises main control software and a plurality of control devices, the background control system is in communication connection with the main control software through a TCP (transmission control protocol), and the main control software is in communication connection with each control device through the TCP;

the background management and control system is used for setting cell configuration information of each management and control device and sending the cell configuration information to the main control software; the system is also used for presenting the cell state information and the number information of the mobile phone reported by the main control software;

the master control software is used for setting cell configuration information for each control device according to the cell configuration information of each control device issued by the background control system; and the system is also used for collecting cell state information and mobile phone number loading information of whether the cell information configuration of each control device is successful, and reporting the cell state information and the mobile phone number loading information to the background control system.

On the basis of the above technical solutions, the embodiments of the present invention may be further improved as follows.

Optionally, the background management and control system includes an interface presentation layer, a communication protocol layer, a database access layer, and a database;

the interface presentation layer is used for receiving setting operation of cell configuration information of each control device;

the communication protocol layer is used for framing according to the cell configuration information and issuing startup protocol frame data to the master control software, so that the master control software deframes the startup protocol frame data, extracts the cell configuration information in the startup protocol frame data, and issues the cell configuration information for each control device;

and the database access layer is used for storing the cell configuration information set on the interface presentation layer into a database.

Optionally, the interface presentation layer includes a configuration management component and a frequency scanning component;

the configuration management component is used for manually setting cell configuration information;

the frequency scanning component is used for automatically scanning frequency in the whole network and updating the frequency scanning result into local cell configuration information.

Optionally, the communication protocol layer includes a communication module;

the communication module is used for sending the starting protocol frame data obtained by framing according to the cell configuration information to the main control software;

correspondingly, the main control software is configured to perform cell parameter configuration on each management and control device according to the received start protocol frame data and the protocol requirements after analysis.

Optionally, the step of collecting cell state information and mobile phone number loading information of whether the cell information configuration of each management and control device is successful, and reporting the cell state information and the mobile phone number loading information to the background management and control system includes:

after the master control software integrates all cell state information, framing according to all cell state information to obtain cell state protocol frame data, and reporting the cell state protocol frame data to a background management and control system through the communication module; when the cell state information changes, framing according to the cell state change information to obtain alarm protocol frame data, and reporting the alarm protocol frame data to a background management and control system through the communication module;

if the configuration of the cell configuration information of any management and control device is successful, the cell state information is in a normal state, otherwise, the cell state information is in an abnormal state.

Optionally, the communication protocol layer further includes a protocol module and a dispatch module, and the interface presentation layer further includes an alarm management component and a system homepage component;

the protocol module is used for respectively unframing the cell state protocol frame data and the alarm protocol frame data to obtain cell state information and alarm information;

the dispatching module is used for dispatching the cell state information and the alarm information to an alarm management component and a system homepage component in the interface presentation layer;

the alarm management component is used for presenting alarm data in real time according to the alarm information;

the system homepage component is used for presenting cell state information.

Optionally, the state information change of the cell means that the state information of the cell is changed from a normal state to an abnormal state or from the abnormal state to the normal state;

the alarm management component is used for adding a new alarm to present when the state information change of the cell means that the state information of the cell is changed from a normal state to an abnormal state; and when the cell state information is changed from the abnormal state to the normal state, updating the alarm state into an alarm recovery state.

Optionally, the main control software is further configured to collect illegal mobile phones, illegal short messages, or illegal calls detected by each management and control device, frame the illegal mobile phones, illegal short messages, or illegal calls to form illegal protocol frame data, and report the illegal protocol frame data to the background management and control system through the communication module;

the protocol module is used for unframing the illegal protocol frame data to obtain an illegal mobile phone, an illegal short message or an illegal telephone;

the distribution module is used for distributing illegal mobile phones, illegal short messages or illegal calls to the detection management component and the system homepage component;

the detection management component is used for presenting detection data according to an illegal mobile phone, an illegal short message or an illegal telephone and marking the blacklist IMSI;

and the system homepage component is used for updating daily alarm and monthly alarm statistical graphs of illegal IMSIs in real time.

Optionally, the management and control device is a 4G LTE acquisition device, a 2G CDMA acquisition device, a 2G GSM acquisition device, a 3G WCDMA acquisition device, a CDMA/EVDO acquisition device, or a WIFI acquisition device.

According to the mobile phone control platform provided by the embodiment of the invention, the mobile phone control platform can realize control of mobile phone signals of a full-standard frequency band, can control state information of a cell and number information of a mobile phone in real time, and can detect abnormal cells and illegal number information; the background management and control system only needs to be connected and communicated with the main control software of the host system, and does not need to be connected with all the management and control devices one by one, so that the number of connections in the mobile phone management and control system is reduced, the communication efficiency is improved, and the problem of unstable socket connection caused by excessive number of connections and excessive data flow is also solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic view of an overall structure of a mobile phone management and control platform according to an embodiment of the present invention;

fig. 2 is a schematic view of an overall structure of a background management and control system according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a control flow of the background control system;

FIG. 4 is a schematic diagram of an alarm process between host software and a background management and control system;

fig. 5 is a schematic diagram illustrating an illegal IMSI number-up monitoring process.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Based on the problems in the background art, the embodiment of the invention provides a mobile phone control platform which is designed in a layered manner and mainly comprises three layers, wherein the first layer comprises a background control system and a host system, the background control system comprises an interface presentation layer, a communication protocol layer, a database access layer and a database in the design of the second layer, the host system comprises host software and a plurality of control devices with different system frequency bands, the background control system is in communication connection with the main control software through a TCP protocol, and the main control software is in communication connection with each control device through the TCP protocol. In the third layer of design, the interface presentation layer comprises a detection management component, a configuration management component, a frequency scanning component, an alarm management component, a system homepage component and a data inquiry component, and the communication protocol layer comprises a communication module, a protocol module and a dispatching module.

The background main control system is responsible for communicating with the host system and finishing the relevant configuration and information presentation of the plurality of control devices, and the database is mainly responsible for storing the relevant configuration and various information of the plurality of control devices; the host system completes the management and control of the mobile phone signals in the full standard frequency range.

According to the mobile phone control platform provided by the embodiment of the invention, the background control system is connected with the main control software of the host system, and all the control devices can be managed and controlled without being connected with all the control devices one by one, so that the control devices can be configured and information can be presented, and illegal mobile phones can be detected, alarmed, positioned and tracked.

Referring to fig. 1, a mobile phone management and control platform according to an embodiment of the present invention is provided, including a background management and control system and a host system, where the host system includes a main control software and a plurality of management and control devices, the background management and control system is in communication connection with the main control software through a TCP protocol, and the main control software is in communication connection with each management and control device through a TCP protocol; the control device comprises a plurality of control devices, a plurality of monitoring devices and a plurality of monitoring modules, wherein the control devices belong to different standard frequency bands;

the background management and control system is used for setting cell configuration information of each management and control device and sending the cell configuration information to the main control software; the system is also used for presenting cell state information and number information of the mobile phone reported by the main control software;

the main control software is used for setting cell configuration information for each control device according to the cell configuration information of each control device issued by the background control system; and the system is also used for collecting the cell state information and the mobile phone number loading information of whether the cell information configuration of each control device is successful, and reporting the cell state information and the mobile phone number loading information to the background control system.

It can be understood that the embodiment of the present invention provides a mobile phone management and control platform, which can implement management, control and detection of mobile phone signals of all systems, and can control state information of a cell and number information of a mobile phone in real time.

The mobile phone control platform mainly comprises a background control platform and a host system, wherein the host system comprises host software and control devices, each control device is used for collecting mobile phone signals of different modes, and each control device comprises a 4G LTE acquisition device, a 2G CDMA acquisition device, a 2G GSM acquisition device, a 3G WCDMA acquisition device, a CDMA/EVDO acquisition device and a WIFI acquisition device. In one set of host system, there may be a plurality of 4G LTE acquisition devices, and 10 at most are configured; the number of 3G WCDMA acquisition equipment can be more than 4; only one of other management and control devices is available.

The background management and control system is communicated with host software in the host system through a TCP (transmission control protocol), the host software is communicated with each management and control device through the TCP, and a south interface protocol is adopted between the host software and each management and control device. The background management and control system sets cell configuration parameters of each management and control device, and sends the cell configuration parameters to each management and control device through host software, and when the cell configuration parameters are successfully set, the corresponding cell is in a normal state; and if the setting of the cell configuration parameters fails, the corresponding cell is in an abnormal state. Each management and control device can also collect the number loading condition of each mobile phone, the host software collects the cell state information fed back by each management and control device and the number loading information of each mobile phone, and the background management and control system displays the cell state information and the number loading information of the mobile phones reported by the main control software.

The mobile phone control platform provided by the embodiment of the invention can realize the control of mobile phone signals of a full-standard frequency band and can control the state information of a cell and the number information of a mobile phone in real time; the background management and control system only needs to be connected and communicated with the main control software of the host system, and does not need to be connected with all the management and control devices one by one, so that the number of connections in the mobile phone management and control system is reduced, the communication efficiency is improved, and the problem of unstable socket connection caused by excessive number of connections and excessive data flow is also solved.

As an optional embodiment, the background management and control system includes an interface presentation layer, a communication protocol layer, a database access layer, and a database;

the interface presentation layer is used for receiving setting operation of cell configuration information of each management and control device;

the communication protocol layer is used for framing according to the cell configuration information and issuing startup protocol frame data to the master control software, so that the master control software deframes the startup protocol frame data, extracts the cell configuration information in the startup protocol frame data and issues the cell configuration information for each control device;

and the database access layer is used for storing the cell configuration information set on the interface presentation layer into a database.

It can be understood that, referring to fig. 2, the background management and control system mainly includes an interface presentation layer, a communication protocol layer, a database access layer, and a database, where the interface presentation layer is mainly used to configure cell parameters of each management and control device, the communication protocol layer issues the configured cell parameters to host software in the host system, and the configured cell parameters are stored in the database through the database access layer.

As an alternative embodiment, the interface presentation layer includes a configuration management component and a frequency scanning component;

a configuration management component for manually setting cell configuration information;

and the frequency scanning component is used for automatically scanning the frequency in the whole network and updating the frequency scanning result into local cell configuration information.

It can be understood that, as shown in fig. 2, two components are included in the interface presentation layer, one is a configuration management component, and the other is a frequency scanning component, wherein when the cell parameters of each managed device are configured manually, the configuration is input through the configuration management component. When the frequency scanning component automatically scans frequency in the whole network during automatic configuration, and the frequency scanning result is locally updated to the cell configuration information.

As an alternative embodiment, as shown in fig. 2, the communication protocol layer includes a communication module;

the communication module is used for sending the starting protocol frame data framed according to the cell configuration information to the main control software;

correspondingly, the main control software is used for respectively configuring cell parameters for each control device according to the received start protocol frame data and the protocol requirements after analysis.

It can be understood that, after the cell configuration information is set in the interface presentation layer, the communication protocol layer module forms start protocol frame data according to cell configuration information framing, the communication module sends the start protocol frame data to the main control software, and the main control software analyzes the start protocol frame data to obtain cell configuration information, and sets the cell configuration parameters for each management and control device according to different protocol requirements.

As an optional embodiment, the method is further configured to collect cell state information and mobile phone number loading information of each management and control device, and reporting the cell state information and the mobile phone number loading information to the background management and control system includes:

after the master control software integrates all cell state information, framing according to all cell state information to obtain cell state protocol frame data, and reporting the cell state protocol frame data to a background management and control system through the communication module; when the cell state information changes, framing according to the cell state change information to obtain alarm protocol frame data, and reporting the alarm protocol frame data to a background management and control system through the communication module;

if the configuration of the cell configuration information of any management and control device is successful, the cell state information is in a normal state, otherwise, the cell state information is in an abnormal state.

It can be understood that, when the cell configuration parameter of the management and control device is successfully set, the corresponding cell state information is in a normal state; and when the configuration of the cell configuration parameters of the control equipment fails, the corresponding cell state information is in an abnormal state.

After the master control software collects all the cell state information, framing is carried out according to all the cell state information to obtain cell state protocol frame data, and the cell state protocol frame data are reported to a background management and control system through a communication module. In addition, when the cell state information changes, the master control software frames alarm protocol frame data according to the cell state change information, and reports the alarm protocol frame data to the background management and control system through the communication module.

As an optional embodiment, the communication protocol layer further comprises a protocol module and a dispatching module, and the interface presentation layer further comprises an alarm management component and a system homepage component;

the protocol module is used for respectively unframing the cell state protocol frame data and the alarm protocol frame data to obtain cell state information and alarm information;

the dispatching module is used for dispatching the cell state information and the alarm information to the alarm management component and the system homepage component in the interface presentation layer;

the alarm management component is used for presenting alarm data in real time according to the alarm information;

and the system homepage component is used for presenting the cell state information.

It can be understood that, when the main control software reports the cell state protocol frame data and the alarm protocol frame data to the background management and control system, the protocol module in the background management and control system performs deframing on the cell state protocol frame data and the alarm protocol frame data respectively to obtain the cell state information and the alarm information. The dispatching module distributes the cell state information to a system homepage component for presentation and dispatches the alarm information to an alarm management component for presentation.

As an alternative embodiment, the state information change of the cell refers to the state information of the cell changing from a normal state to an abnormal state or from the abnormal state to the normal state;

the alarm management component is used for adding a new alarm to present when the state information change of the cell means that the state information of the cell is changed from a normal state to an abnormal state; and when the cell state information is changed from the abnormal state to the normal state, updating the alarm state into an alarm recovery state.

It can be understood that, the change of the cell state information includes a change of the cell state from normal to abnormal or from abnormal to normal, when the cell state information is changed from normal to abnormal, the alarm management component adds a new alarm presentation; when the state information of the cell is changed from the abnormal state to the normal state, the alarm management module updates the alarm state into an alarm recovery state.

As an optional embodiment, it can be understood that, when the cell state information is in a normal state, the management and control device may detect an illegal IMSI number-up condition, such as an illegal mobile phone, an illegal short message, or an illegal phone call, and the main control software is configured to collect the illegal mobile phone, the illegal short message, or the illegal phone call detected by each management and control device, frame the collected illegal mobile phone, the illegal short message, or the illegal phone call to form illegal protocol frame data, and report the illegal protocol frame data to the background management and control system through the communication module;

the protocol module is used for unframing the illegal protocol frame data to obtain an illegal mobile phone, an illegal short message or an illegal telephone;

the distribution module is used for distributing the illegal mobile phone, the illegal short message or the illegal telephone to the detection management component and the system homepage component;

the detection management component is used for presenting detection data according to an illegal mobile phone, an illegal short message or an illegal telephone and marking the blacklist IMSI;

and the system homepage component is used for updating daily alarm and monthly alarm statistical graphs of illegal IMSIs in real time.

The database access layer stores illegal mobile phones, illegal short messages or illegal calls and the like into the database, and the data query component can query information stored in the database.

Referring to fig. 3 to 5, a process of monitoring state information of each cell and an illegal mobile phone number uploading condition by using a mobile phone management and control platform will be described in detail below.

Step P1: the background management and control system adopts a one-key starting process, and can set cell configuration information in two modes, namely a manual mode and an automatic mode.

Step P101: if the manual mode is adopted, setting cell configuration information through a configuration management component of an interface presentation layer, and then switching to a process P102 for execution;

step P102: the database access layer stores the cell configuration information into a warehouse and then transfers the cell configuration information into a process P105 for execution;

step P103: if the automatic mode is adopted, the frequency scanning component of the interface presentation layer carries out automatic full-network frequency scanning, the frequency scanning result is locally updated into the cell configuration information, and then the process P104 is executed;

step P104: the database access layer stores the whole network sweep frequency result information into a warehouse and then transfers the information into a process P105 for execution;

step P105: the configuration management component of the interface presentation layer executes the cell one-key starting operation and then transfers to the process P106 for execution;

step P106: the communication protocol layer frames according to the set cell configuration information and then sends cell starting protocol frame data, and then the process is switched to a process P107 for execution;

step P107: the main control software performs cell configuration and starting on each control device according to the received starting protocol frame data and the protocol requirements after preliminary analysis, and then the process is switched to the process P108 for execution;

step P108: after receiving the cell configuration starting request of the master control software, each management and control device executes a configuration command and updates the cell state, reports the cell state to the master control software, and then sequentially switches to the processes P109 and P111 for execution;

step P109: if the cell state of the management and control equipment is abnormal, the process P110 is switched to execute;

step P110: the main control software reports the data of the cell activity alarm protocol frame, and then the process P202 is carried out;

step P111: whether the cell state is abnormal or not, when the master control software integrates all the cell starting states, reporting cell state protocol frame data, and then switching to a process P112 to execute;

step P112: after the communication protocol layer analyzes the data, the cell state data is distributed, and then the process P113 is carried out;

step P113: updating the cell state of the display management and control equipment by the configuration management component of the interface presentation layer, and then turning to the process P4 to end;

step P2: the change process of the abnormal cell state of the control equipment is that no matter the client actively changes the cell state through one-key starting/stopping operation, or the control equipment actively monitors the abnormal cell state/recovers the normal cell state in the running process, as long as the abnormal cell state changes.

Step P201: the main control software reports the data of the cell activity alarm/alarm recovery protocol frame, and then the process P202 is carried out;

step P202: the communication protocol layer analyzes the alarm protocol frame data, then dispatches the fault alarm data, and then transfers to the P203 for execution;

step P203: the database access layer stores the fault alarm data in a warehouse and then transfers the fault alarm data to the P204 for execution;

step P204: the alarm management component of the interface presentation layer presents alarm data in real time, if the activity alarm is given, an alarm presentation is added, if the alarm is recovered, the existing alarm state is updated to be an alarm recovery state, and then the process is switched to the process P4 to be ended;

step P3: the illegal IMSI number uploading process of the control equipment can be an illegal mobile phone, an illegal short message or an illegal telephone.

Step P301: the main control software reports the data of the illegal mobile phone, the illegal short message or the illegal telephone protocol frame and then transfers the data to the process P302 for execution;

step P302: the communication protocol layer analyzes the illegal protocol frame data, distributes the illegal detection data and then transfers the illegal detection data to a process P303 for execution;

step P303: the database access layer stores the illegal detection data into a warehouse, then sends a notice in a group mode, and the concerned components process the notice and parallelly transfer the notice into a process P304 and a process P305 for execution;

step P304: the detection management component of the interface presentation layer presents the detection data, the black list IMSI is marked with red and highlighted, and then the process is switched to the process P4 to be ended;

step P305: and the system homepage component of the interface presentation layer updates the daily alarm and monthly alarm statistical chart of the illegal IMSI in real time, and then the flow P4 is switched to be ended.

Description of the drawings: the precondition that the control device adsorbs the illegal IMSI number flow P3 is that the execution result of the flow P1 is that the control cell operates normally, otherwise, the number cannot be uploaded.

The mobile phone control platform provided by the embodiment of the invention can realize the control of mobile phone signals of a full system, and can control the state information of a cell and the number information of a mobile phone in real time; the background management and control system only needs to be connected and communicated with the main control software of the host system, and does not need to be connected with all the management and control devices one by one, so that the number of connections in the mobile phone management and control system is reduced, the communication efficiency is improved, and the problem of unstable socket connection caused by excessive number of connections and excessive data flow is also solved.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present 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 solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A mobile phone control platform is characterized by comprising a background control system and a host system, wherein the background control system comprises an interface presentation layer, a communication protocol layer, a database access layer and a database, the host system comprises main control software and a plurality of control devices with different system frequency bands, the background control system is in communication connection with the main control software through a TCP protocol, and the main control software is in communication connection with each control device through the TCP protocol;

the interface presentation layer comprises a detection management component, a configuration management component, a frequency scanning component, an alarm management component, a system homepage component and a data query component, and the communication protocol layer comprises a communication module, a protocol module and a dispatching module;

the background management and control system is in charge of communicating with the host system, completing relevant configuration and information presentation of a plurality of management and control devices, and the database stores the relevant configuration and information of the plurality of management and control devices;

the host system completes the management and control of the mobile phone signals in the full standard frequency band;

the control equipment is 4G LTE acquisition equipment, 2G CDMA acquisition equipment, 2G GSM acquisition equipment, 3G WCDMA acquisition equipment, CDMA/EVDO acquisition equipment or WIFI acquisition equipment;

the interface presentation layer is used for receiving setting operation of cell configuration information of each control device;

the communication protocol layer is used for framing according to the cell configuration information and issuing startup protocol frame data to the master control software, so that the master control software deframes the startup protocol frame data, extracts the cell configuration information in the startup protocol frame data, and issues the cell configuration information for each control device;

the database access layer is used for storing the cell configuration information set on the interface presentation layer into a database;

the configuration management component is used for manually setting cell configuration information;

the frequency scanning component is used for automatically scanning frequency in the whole network and updating the frequency scanning result into local cell configuration information;

the communication module is used for sending the starting protocol frame data obtained by framing according to the cell configuration information to the main control software;

the protocol module is used for respectively unframing the cell state protocol frame data and the alarm protocol frame data to obtain cell state information and alarm information, and unframing the illegal protocol frame data to obtain an illegal mobile phone, an illegal short message or an illegal telephone;

the dispatching module is used for dispatching the cell state information and the alarm information to the alarm management component and the system homepage component in the interface presentation layer, and is used for dispatching an illegal mobile phone, an illegal short message or an illegal telephone to the detection management component and the system homepage component;

the alarm management component is used for presenting alarm data in real time according to the alarm information;

the system homepage component is used for presenting cell state information and updating daily alarm and monthly alarm statistical graphs of illegal IMSIs in real time;

the detection management component is used for presenting detection data according to an illegal mobile phone, an illegal short message or an illegal telephone and marking the blacklist IMSI.

2. A mobile phone control platform is characterized by comprising a background control system and a host system, wherein the host system comprises main control software and a plurality of control devices, the control devices are acquisition devices with different standard frequency bands, the background control system is in communication connection with the main control software through a TCP (transmission control protocol), the main control software is in communication connection with each control device through the TCP, and the control devices belong to different standard frequency bands;

the background management and control system is used for setting cell configuration information of each management and control device and sending the cell configuration information to the main control software; the system is also used for presenting the cell state information and the number information of the mobile phone reported by the main control software;

the master control software is used for setting cell configuration information for each control device according to the cell configuration information of each control device issued by the background control system; the system is also used for collecting cell state information and mobile phone number loading information of each control device, and reporting the cell state information and the mobile phone number loading information to the background control system;

the control equipment is 4G LTE acquisition equipment, 2G CDMA acquisition equipment, 2G GSM acquisition equipment, 3G WCDMA acquisition equipment, CDMA/EVDO acquisition equipment or WIFI acquisition equipment.

3. The mobile phone management and control platform according to claim 2, wherein the background management and control system comprises an interface presentation layer, a communication protocol layer, a database access layer and a database;

the interface presentation layer is used for receiving setting operation of cell configuration information of each control device;

the communication protocol layer is used for framing according to the cell configuration information and issuing startup protocol frame data to the master control software, so that the master control software deframes the startup protocol frame data, extracts the cell configuration information in the startup protocol frame data, and issues the cell configuration information for each control device;

and the database access layer is used for storing the cell configuration information set on the interface presentation layer into a database.

4. The mobile phone management and control platform according to claim 3, wherein the interface presentation layer includes a configuration management component and a frequency scanning component;

the configuration management component is used for manually setting cell configuration information;

the frequency scanning component is used for automatically scanning frequency in the whole network and updating the frequency scanning result into local cell configuration information.

5. The mobile phone management and control platform according to claim 3, wherein the communication protocol layer includes a communication module;

the communication module is used for sending the starting protocol frame data obtained by framing according to the cell configuration information to the main control software;

correspondingly, the main control software is configured to perform cell parameter configuration on each management and control device according to the received start protocol frame data and the protocol requirements after analysis.

6. The mobile phone management and control platform according to claim 5, wherein the mobile phone management and control platform is further configured to collect cell state information and mobile phone number loading information of whether the cell information configuration of each management and control device is successful, and reporting the cell state information and the mobile phone number loading information to the background management and control system includes:

after the master control software integrates all cell state information, framing according to all cell state information to obtain cell state protocol frame data, and reporting the cell state protocol frame data to a background management and control system through the communication module; when the cell state information changes, framing according to the cell state change information to obtain alarm protocol frame data, and reporting the alarm protocol frame data to a background management and control system through the communication module;

if the configuration of the cell configuration information of any management and control device is successful, the cell state information is in a normal state, otherwise, the cell state information is in an abnormal state.

7. The mobile phone management and control platform according to claim 6, wherein the communication protocol layer further includes a protocol module and a dispatch module, and the interface presentation layer further includes an alarm management component and a system homepage component;

the protocol module is used for respectively unframing the cell state protocol frame data and the alarm protocol frame data to obtain cell state information and alarm information;

the dispatching module is used for dispatching the cell state information and the alarm information to an alarm management component and a system homepage component in the interface presentation layer;

the alarm management component is used for presenting alarm data in real time according to the alarm information;

the system homepage component is used for presenting cell state information.

8. The mobile phone management and control platform according to claim 7, wherein the change of the state information of the cell is a change of the state information of the cell from a normal state to an abnormal state or from an abnormal state to a normal state;

the alarm management component is used for adding a new alarm to present when the state information change of the cell means that the state information of the cell is changed from a normal state to an abnormal state; and when the cell state information is changed from the abnormal state to the normal state, updating the alarm state into an alarm recovery state.

9. The mobile phone management and control platform according to claim 6, 7 or 8, wherein the main control software is further configured to collect illegal mobile phones, illegal short messages or illegal phones detected by each management and control device, frame the illegal mobile phones, illegal short messages or illegal phones to form illegal protocol frame data, and report the illegal protocol frame data to the background management and control system through the communication module;

the protocol module is used for unframing the illegal protocol frame data to obtain an illegal mobile phone, an illegal short message or an illegal telephone;

the distribution module is used for distributing the illegal mobile phone, the illegal short message or the illegal telephone to the detection management component and the system homepage component;

the detection management component is used for presenting detection data according to an illegal mobile phone, an illegal short message or an illegal telephone and marking the blacklist IMSI;

and the system homepage component is used for updating daily alarm and monthly alarm statistical graphs of illegal IMSIs in real time.

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