CN104053169B - The method and device of network optimization scheme is presented in a kind of multiwindow - Google Patents

Abstract

The invention discloses a method and a device for multi-window presentation of a network optimization scheme. The method is that after the geographic information system tool detects the communication quality indicator option input by the user, it calls the communication quality indicators of all the cells stored locally; and according to the communication quality indicators, obtains the problem cells with communication quality problems, and the and the network optimization plan for the problem area are presented in the corresponding windows of the GIS interface. By adopting the technical solution of the present invention, the geographic information system tool can analyze the entire network according to the communication quality index input by the user, and present the problematic cells and network optimization solutions obtained from the analysis in different windows, and the detection process is convenient and fast. And it is not necessary for the staff to provide a network optimization scheme according to relevant parameters, avoiding misjudgment by manual operation, and improving the accuracy of the network optimization scheme.

Description

Method and device for multi-window presentation of network optimization scheme

technical field

The present invention relates to the field of communication technologies, in particular to a method and device for presenting network optimization schemes in multiple windows.

Background technique

With the wide application of communication technology in various fields, more and more attention has been paid to optimizing the communication network by analyzing the communication quality of each cell in the entire network coverage area. At present, network optimization tools combined with geographic information systems can be used to realize communication network optimization analysis.

Referring to Figure 1, the network optimization tool implements the communication network optimization analysis process as follows:

Step 100: After the network optimization tool detects the network element import command input by the user in the network optimization presentation interface, it switches to the network element import interface.

For example, referring to FIG. 2, the initial interface of the network optimization tool is shown. When the network optimization tool receives a user-input geographic information system interface display command, it switches to the network element import interface shown in FIG. 3; wherein the network element is the object, Such as the cell selected by the user.

Step 110: After the network optimization tool receives the network element import instruction input by the user in the network element import interface, it switches to the network element identification selection interface.

For example, refer to FIG. 4 which shows an interface for selecting a network element identifier.

Step 120: After the network optimization tool receives the network element ID input by the user in the network element ID selection interface, it imports the network element corresponding to the selected network element ID, and presents a geographic information system interface.

For example, referring to FIG. 5 , it is a geographic information system presentation interface.

Step 130: After receiving the indicator option selected by the user in the GIS interface, the network optimization tool invokes the indicator corresponding to the indicator option stored locally, and presents the network optimization analysis result window corresponding to the corresponding indicator option.

For example, referring to Figure 6, it is the interface presented after the user inputs the geographic presentation instruction in the geographic information system interface of the network optimization tool; referring to Figure 7, it is the interface presented after the user inputs the multi-window presentation instruction in the above-mentioned geographic information system presentation interface The final network optimization analysis result interface presented.

It can be seen that, with the above technical solution, the network optimization tool requires the user to input instructions multiple times to present the final network optimization analysis result interface; in addition, the analysis results presented on the above network optimization analysis result interface are only the windows corresponding to each indicator option, However, the reason for the poor communication quality of a certain cell is not given, and the staff needs to conduct manual analysis based on the graphics and related parameters presented in this window.

To sum up, in the process of using network optimization tools to detect communication quality, there are problems that the final analysis result cannot be obtained and the detection process is complicated.

Contents of the invention

Embodiments of the present invention provide a method and device for presenting network optimization schemes in multiple windows to solve the problems in the prior art that the final analysis results cannot be obtained and the detection process is complicated in the process of detecting communication quality by using network optimization tools.

The specific technical scheme that the embodiment of the present invention provides is as follows:

In the first aspect, a method for displaying network optimization solutions in multiple windows is provided, including:

According to the communication quality index option input by the user on the GIS interface of the geographic information system, call the communication quality indicators of all the cells saved locally;

According to the communication quality index, detecting a problem cell with a communication quality problem from all the cells, and presenting the problem cell in a geographic information system (GIS) window of the GIS interface; and

Obtain the communication quality parameters of the problematic cell and the network optimization scheme for the problematic cell according to the communication quality index, and display the communication quality parameters and the network optimization scheme for the problematic cell in the GIS graph area to render.

With reference to the first aspect, in a first possible implementation manner, the method for obtaining the communication quality indicators of all the cells includes: separately obtaining the communication quality indicators dynamically reported by each cell; or, respectively sending communication quality indicators to each cell The quality index acquisition instruction is to acquire the communication quality index of each cell at the current moment.

With reference to the first possible implementation manner of the first aspect, in a second possible implementation manner, according to the communication quality index, acquire a communication quality parameter of at least one problematic cell; A problem cell is sorted, and the sorted at least one problem cell is presented in a GIS window in the GIS interface of the geographic information system; and the network optimization plan of the at least one problem cell is obtained according to the communication quality parameter, and the obtained The communication quality parameters and network optimization scheme of the at least one problematic cell are presented in a GIS chart window in the GIS interface; wherein the GIS interface includes at least a GIS window and a GIS chart window.

With reference to the second possible implementation of the first aspect, in a third possible implementation, when it is detected that the user inputs at least two communication quality indicator options, the at least two communication quality indicators stored locally are respectively called Each communication quality index corresponding to the option; and in the GIS window, a sub-window corresponding to each communication quality index is used for presentation.

In combination with the first aspect, in a fourth possible implementation, when it is detected that the user selects the sub-district to be detected in the GIS window, the latitude and longitude of the sub-district to be detected is obtained; according to the latitude and longitude of the sub-district to be detected, call the local The saved communication quality index corresponding to the latitude and longitude; according to the communication quality index, obtain the communication quality parameter of the cell to be detected.

In the second aspect, a device for displaying network optimization solutions in multiple windows is provided, including:

The calling unit is used to call the communication quality indicators of all the cells saved locally according to the communication quality indicator options input by the user on the GIS interface of the geographic information system;

A presenting unit, configured to detect a problem cell with a communication quality problem from all the cells according to the communication quality index, and present the problem cell in the geographic information system window of the GIS interface; and according to the The communication quality index, obtain the communication quality parameters of the problem cell and the network optimization plan for the problem cell, and carry out the communication quality parameters and the network optimization plan for the problem cell in the graph area of the GIS presented.

With reference to the second aspect, in a first possible implementation manner, a first acquisition unit is further included, configured to: separately acquire the communication quality indicators dynamically reported by each cell; or, respectively send communication quality indicator acquisition instructions to each cell , to obtain the communication quality index of each cell at the current moment.

With reference to the first possible implementation manner of the second aspect, in a second possible implementation manner, the presenting unit is specifically configured to: acquire a communication quality parameter of at least one problematic cell according to the communication quality indicator; The communication quality parameter sorts the at least one problematic cell, and presents the sorted at least one problematic cell in a GIS window in a geographic information system GIS interface; and acquires the at least one problematic cell according to the communication quality parameter The network optimization scheme of the problematic cell presents the communication quality parameters and the network optimization scheme of the at least one problematic cell in a GIS chart window in the GIS interface; wherein the GIS interface includes at least a GIS window and a GIS chart window.

With reference to the second possible implementation manner of the second aspect, in a third possible manner, the presentation unit is further configured to: when detecting that the user has input at least two communication quality index options, call the locally stored Each of the communication quality indicators corresponding to the at least two communication quality indicator options; and in the GIS window, a sub-window corresponding to each of the communication quality indicators is used for presentation.

With reference to the second aspect, in a fourth possible implementation manner, a second acquisition unit is also included, configured to: acquire the latitude and longitude of the sub-district to be detected when it is detected that the user selects the sub-district to be detected in the GIS window; For the latitude and longitude of the cell to be detected, call the communication quality index corresponding to the latitude and longitude stored locally; and obtain the communication quality parameter of the cell to be detected according to the communication quality index.

In the embodiment of the present invention, after the geographic information system tool detects the communication quality indicator option input by the user, it calls the communication quality indicators of all the cells stored locally; and according to the communication quality indicators, obtains the problem cells with communication quality problems, and The problem cell and the network optimization scheme for the problem cell are presented in corresponding windows of the GIS interface. By adopting the technical solution of the present invention, the geographic information system tool can analyze the entire network according to the communication quality index input by the user, and present the problematic cells and network optimization solutions obtained from the analysis in different windows, and the detection process is convenient and fast. In addition, there is no need for staff to provide a network optimization scheme based on relevant parameters, which avoids misjudgment by manual operation and improves the accuracy of the network optimization scheme.

Description of drawings

Fig. 1 is the flow chart that network optimization tool realizes communication network optimization analysis in the prior art;

Fig. 2 is the initial interface of the network optimization tool in the prior art;

Fig. 3 is the import interface of the network optimization tool in the prior art;

Fig. 4 is the network element identification selection interface of the network optimization tool in the prior art;

Fig. 5 is the presenting interface 1 of the geographic information system of the network optimization tool in the prior art;

Fig. 6 is the presenting interface 2 of the geographic information system of the network optimization tool in the prior art;

Fig. 7 is the presenting interface 3 of the geographic information system of the network optimization tool in the prior art;

FIG. 8 is a flow chart of presenting a multi-window network optimization analysis solution in an embodiment of the present invention;

9a to 9d are schematic diagrams of GIS window division in the embodiment of the present invention;

Fig. 10a to Fig. 10d are schematic diagrams of dividing GIS windows in specific application scenarios in the embodiment of the present invention;

Fig. 11 is a schematic diagram of a GIS chart window in an embodiment of the present invention;

FIG. 12 is a flow chart 1 for presenting a multi-window network optimization analysis solution in a specific application scenario in an embodiment of the present invention;

FIG. 13 is a first schematic diagram of the GIS interface in the specific application scenario 1 in the embodiment of the present invention;

Fig. 14 is a second schematic diagram of the GIS interface in the specific application scenario 1 in the embodiment of the present invention;

Fig. 15 is a second flowchart of presenting a multi-window network optimization analysis solution in a specific application scenario in the embodiment of the present invention;

FIG. 16 is a first schematic diagram of the GIS interface under the second specific application scenario in the embodiment of the present invention;

Fig. 17 is a second schematic diagram of the GIS interface under the second specific application scenario in the embodiment of the present invention;

Fig. 18 is the second schematic diagram of the GIS interface under the second specific application scenario in the embodiment of the present invention;

FIG. 19 is a schematic structural diagram of a device for presenting a network optimization analysis solution in multiple windows in an embodiment of the present invention;

FIG. 20 is a schematic diagram of a device structure for multi-window presentation of a network optimization analysis solution in an embodiment of the present invention.

detailed description

In order to solve the problems that the final analysis result cannot be obtained and the detection process is complicated in the prior art in the process of detecting the communication quality by using the network optimization tool. In the embodiment of the present invention, after the geographic information system tool detects the communication quality indicator option input by the user, it calls the communication quality indicators of all the cells stored locally; and according to the communication quality indicators, obtains the problem cells with communication quality problems, and The problem cell and the network optimization scheme for the problem cell are presented in corresponding windows of the GIS interface. By adopting the technical solution of the present invention, the geographic information system tool can analyze the entire network according to the communication quality index input by the user, and present the problematic cells and network optimization solutions obtained from the analysis in different windows, and the detection process is convenient and fast. In addition, there is no need for staff to provide a network optimization scheme based on relevant parameters, which avoids misjudgment by manual operation and improves the accuracy of the network optimization scheme.

Preferred embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings.

Referring to Figure 8, in the embodiment of the present invention, the detailed flow of the multi-window presentation network optimization solution is as follows:

Step 800: Call the communication quality indicators of all cells stored locally according to the communication quality indicator options input by the user on the GIS interface.

In the embodiment of the present invention, the communication quality indicators of all the cells locally stored by the geographical information system can be obtained through dynamic reporting by each cell, and can also be obtained through real-time acquisition, that is, when the geographic information system detects the user input After the communication quality indicator option is selected, a communication quality indicator acquisition instruction corresponding to the communication quality indicator option is sent to each cell to obtain the real-time communication quality indicator of each cell at the current moment. Wherein, the above-mentioned communication quality index options include pilot index options, traffic index options, and the like.

Optionally, before the user enters the communication quality index option on the GIS interface, the geographic information system tool presents the number of windows option on the GIS interface, prompting the user to select the number of sub-windows presented in the GIS window as required. For example, if the GIS tool detects that the number of sub-windows input by the user is 1, then the GIS interface presents only one sub-window, as shown in Figure 9a; if the GIS tool detects that the number of sub-windows input by the user is 2, then Divide the GIS window to present two sub-windows, as shown in Figure 9b; if the GIS tool detects that the number of sub-windows input by the user is 3, then divide the GIS window to present three sub-windows, as shown in Figure 9c; If the GIS tool detects that the number of sub-windows input by the user is 4, the GIS window is divided to present four sub-windows, as shown in FIG. 9d. In a specific application scenario, the geographic information system tool presents 1 to 4 sub-windows in the GIS window according to user instructions, as shown in Figures 10a to 10d.

Step 810: According to the above-mentioned communication quality indicators, detect problem cells with communication quality problems from all cells, and present the problem cells in the GIS window of the GIS interface.

In the embodiment of the present invention, after the geographic information system tool acquires the above-mentioned communication quality index, it obtains the communication quality parameters of each cell respectively according to the communication quality index, and selects the existing communication quality parameters from all the cells according to the communication quality parameters. The problem area of the problem. Among them, there are communication quality problems including call drop problems, slow data transmission speed and other problems related to communication quality.

Further, the geographic information system tool presents the selected problematic cell in the GIS window; wherein, when the user enters at least two communication quality index options, the GIS window is divided into multiple sub-windows to display each communication quality Indicators, each communication quality indicator corresponds to a sub-window. Wherein, the GIS interface of the geographic information system tool includes at least a GIS window and a GIS chart window, the GIS window is used to present the position of the problem cell in the map containing all the cells, and the GIS chart window is used to present the communication quality parameters of the selected problem cell and For the network optimization scheme, refer to Figure 11. Wherein, the communication quality parameter corresponds to the aforementioned communication quality index.

Step 820: Obtain the communication quality parameters of the above-mentioned problematic cell and the network optimization plan for the problematic cell according to the above-mentioned communication quality index, and perform the above-mentioned obtained communication quality parameters and the network optimization plan for the problematic cell in the graph area of the GIS presented.

In the embodiment of the present invention, the geographic information system tool acquires the communication quality parameters of one problematic cell or at least two problematic cells according to the above communication quality index. When the geographic information system tool obtains the communication quality parameters of a problem cell, that is, according to the communication quality parameters, the preset algorithm is used to obtain the reason for the communication quality problem in the problem cell, and obtain the network optimization plan, which is presented in the GIS icon window ; When the geographic information system tool obtains the communication quality parameters of at least two problem cells, the above-mentioned at least two problem cells are sorted according to the communication quality parameters, and the at least two problem cells after sorting are displayed in the GIS in the geographic information system GIS interface The window is presented; and the network optimization plan of at least one problematic cell is obtained according to the above-mentioned communication quality parameters, and the communication quality parameters of the above-mentioned at least two problematic cells and the network optimization plan are presented in a GIS chart window adjacent to the GIS window in the GIS interface , or, store the communication quality parameters and the network optimization scheme of the above-mentioned at least two problem cells locally, and when it is detected that the user selects any problem cell, only the communication quality parameters and the problem cell selected by the user are presented in the GIS chart window Network optimization scheme.

Further, when the geographic information system detects that the user has input at least two communication quality index options, each communication quality index corresponding to the above-mentioned at least two communication quality index options stored locally is called respectively; and in the GIS window, corresponding to Each communication quality indicator is presented through a sub-window. For example, communication quality indicators include pilot indicators and traffic indicators.

Optionally, when the GIS tool detects that the user selects a problem cell, it presents the notification quality parameters and the network optimization scheme of the problem cell in the GIS window in the form of bubbles.

In particular, if the user specifies a cell to be detected in the GIS window, the geographic information system tool detects that the user selects the cell to be detected in the GIS window, and obtains the latitude and longitude of the cell to be detected; according to the latitude and longitude of the cell to be detected, call The communication quality index corresponding to the above-mentioned longitude and latitude stored locally; according to the above-mentioned communication quality index, the communication quality parameter of the cell to be detected is obtained; according to the communication quality parameter of the cell to be detected, a preset algorithm is used to obtain the network optimization plan of the cell to be detected Presented in the GIS icon area. Optionally, the above-mentioned geographic information system tool obtains the communication quality index corresponding to the above-mentioned longitude and latitude through the longitude and latitude of the cell to be detected input by the user; or, the above-mentioned geographic information system selects the cell to be detected in all the cell maps presented in the GIS window, And detect the user's selected indication in the above GIS window, according to the grid position where the selected indication is located, and according to the grid position, obtain the latitude and longitude of the cell to be detected, and determine the communication quality index corresponding to the latitude and longitude.

Optionally, a mapping relationship table between latitude and longitude and communication quality indicators is stored locally. When the user selects a cell to be detected, the geographic information system tool obtains the communication quality index corresponding to the longitude and latitude of the above-mentioned cell to be detected from the geographic mapping relationship table .

Based on the above technical solutions, the process of presenting network optimization solutions in multiple windows will be described in detail below in combination with specific application scenarios.

Application Scenario 1

In the embodiment of the present invention, taking the user has selected the cell to be detected as an example, as shown in Figure 12, the process of presenting the network optimization solution in multiple windows is as follows:

Step 1200: Obtain the latitude and longitude of the sub-district to be detected according to the sub-district to be detected input by the user on the GIS interface.

In the embodiment of the present invention, the geographic information system tool presents an interface as shown in FIG. 13 according to the multi-window presentation instruction selected by the user in the GIS interface. Optionally, in the GIS window, a cell to be detected input box is presented, and the user may input the latitude and longitude of the cell to be detected in the cell to be detected input box, or the user may input the identification information of the cell to be detected in the cell to be detected input box , the geographic information system tool obtains the locally saved latitude and longitude of the cell to be detected through the identification information, wherein the identification information is the name identification information or the area number identification information; or, all the areas are presented in the form of a map in the GIS window, and the user can click on the Select the cell to be detected in the map, because the map in the GIS window is presented in the form of a grid, after the geographic information system tool detects the user's selected indication, it will obtain the grid position of the selected indication in the map, and obtain the locally saved The latitude and longitude corresponding to the above grid position, the latitude and longitude is the latitude and longitude of the cell to be detected.

Step 1210: According to the communication quality indicator option input by the user, call the communication quality indicator of the cell to be detected stored locally.

In the embodiment of the present invention, the geographic information system tool obtains the locally saved communication quality index of the cell to be detected according to the communication instruction index option input by the user and the latitude and longitude of the cell to be detected.

Step 1220: Obtain the communication quality parameters of the above-mentioned sub-district to be detected and the network optimization scheme for the sub-district to be detected according to the above-mentioned communication quality index, and store the above-mentioned obtained communication quality parameters and the network optimization scheme for the sub-district to be detected in the GIS The chart area is displayed.

In the embodiment of the present invention, the geographic information system tool obtains the communication quality parameters and the network optimization scheme of the cell to be detected by using a preset algorithm according to the obtained communication quality index. And it is displayed in the GIS chart window process. Optionally, when the geographic information system tool detects that the user selects the cell to be detected, it presents the communication quality parameters and the network optimization scheme of the cell to be detected in the form of bubbles, as shown in FIG. 14 .

Application Scenario 2

In the embodiment of the present invention, the user does not select a cell to be detected, and the geographic information system tool detects all cells in the entire network as an example, as shown in Figure 15, the process of presenting the network optimization solution in multiple windows is as follows:

Step 1500: Receive a network-wide analysis instruction input by a user.

Referring to FIG. 16 , in the embodiment of the present invention, the GIS interface may include an area option, and the user inputs the area to be detected in the area option.

Step 1510: Obtain the communication quality indicators of all cells stored locally according to the above-mentioned network-wide analysis instruction and the communication quality indicator options input by the user.

Step 1520: According to the communication quality index of each cell, use a preset algorithm to obtain the communication quality parameters of each problematic cell, sort the problematic cells according to the communication quality parameters, and obtain the network optimization plan of each problematic cell .

Referring to FIG. 17 , in the embodiment of the present invention, according to the communication quality parameters, the problem cells are sorted according to each communication quality parameter of the problem cells. For example, if two communication quality parameters are included, namely communication quality parameter 1 and communication quality parameter 2, sort all problem cells according to communication quality parameter 1, and present the sorting result in sub-window 1 in the GIS window; and, All problematic cells are sorted according to the communication quality parameters, and the sorting results are presented in sub-window 2 of the GIS window.

Step 1530: Receive the user's instruction to select a problematic cell, and present the communication quality parameters and network optimization scheme of the selected problematic cell in the GIS chart area.

In the embodiment of the present invention, when the geographic information system tool detects that the user selects a problem cell, it presents the communication quality parameters and the network optimization scheme of the cell to be detected in the form of bubbles, as shown in FIG. 18 .

Based on the above technical solution, as shown in FIG. 19 , the present invention provides a device for presenting a multi-window network optimization solution, including a calling unit 190 and a presenting unit 191, wherein:

The calling unit 190 is used to call the communication quality indicators of all the cells stored locally according to the communication quality indicator options input by the user on the GIS interface, and send the communication quality indicators of all the cells to the presentation unit 191;

The presenting unit 191 is configured to receive the communication quality index of the used cell sent by the calling unit 190, detect a problem cell with a communication quality problem from all the cells according to the communication quality index, and display the The problem cell is presented in the geographic information system GIS window of the GIS interface; and according to the communication quality index, the communication quality parameters of the problem cell and the network optimization scheme for the problem cell are obtained, and the communication quality The parameters and the network optimization scheme for the problematic cell are presented in the GIS graph area.

The above-mentioned device also includes a first acquiring unit 192, configured to: respectively acquire the communication quality indicators dynamically reported by each cell; or send communication quality indicator acquisition instructions to each cell respectively to acquire the communication quality of each cell at the current moment index.

The above-mentioned device also includes a second acquisition unit 193, configured to: acquire the latitude and longitude of the sub-district to be detected when it is detected that the user selects the sub-district to be detected in the GIS window; call the locally stored A communication quality index corresponding to the latitude and longitude; according to the communication quality index, a communication quality parameter of the cell to be detected is acquired.

Based on the above technical solution, as shown in FIG. 20 , the present invention provides a device for presenting a multi-window network optimization solution, including a transceiver 200, a memory 201, and a processor 202, wherein:

The transceiver 200 is configured to receive the communication quality index option input by the user in the GIS interface, and send the communication quality index option to the processor 202;

The memory 201 is configured to save the communication quality indicators of all the cells, and send the communication quality indicators of all the cells to the processor 202;

The processor 202 is configured to receive the communication quality indicator options sent by the transceiver 200 and the communication quality indicators of all the cells sent by the memory 201, and call all the locally saved cells according to the communication quality indicator options input by the user on the GIS interface of the geographic information system The communication quality index, according to the communication quality index, detects the problem cell that has the communication quality problem from all the cells, and presents the problem cell in the geographic information system GIS window of the GIS interface; and according to The communication quality index obtains the communication quality parameters of the problem cell and the network optimization plan for the problem cell, and performs the communication quality parameter and the network optimization plan for the problem cell in the GIS chart area presented.

Further, the above-mentioned transceiver 200 is also configured to send a communication quality indicator acquisition instruction to each cell, and receive a communication quality indicator dynamically reported by each cell.

The above-mentioned processor 202 is specifically configured to acquire the communication quality parameters of at least one problematic cell according to the communication quality index; sort the at least one problematic cell according to the communication quality parameter, and sort the at least one problematic cell The cell is presented in the GIS window in the GIS interface of the geographic information system; and the network optimization plan of the at least one problematic cell is obtained according to the communication quality parameter, and the communication quality parameter and the network optimization plan of the at least one problematic cell are placed in the The GIS chart window in the GIS interface is presented; wherein, the GIS interface at least includes a GIS window and a GIS chart window.

The above-mentioned processor 202 is further configured to call each communication quality indicator corresponding to the at least two communication quality indicator options stored locally when the user inputs at least two communication quality indicator options; and in the GIS window , corresponding to each of the communication quality indicators, a sub-window is used for presentation.

The above-mentioned processor 202 is also used to obtain the latitude and longitude of the sub-district to be detected when the user selects the sub-district to be detected in the GIS window; according to the latitude and longitude of the sub-district to be detected, call the communication corresponding to the longitude and latitude saved locally A quality index; according to the communication quality index, acquire a communication quality parameter of the cell to be detected.

In summary, in the embodiment of the present invention, according to the communication quality index option input by the user on the GIS interface, the communication quality indicators of all the cells stored locally are called; The problem cell of the problem, and present the problem cell in the GIS window of the GIS interface; according to the above communication quality indicators, obtain the communication quality parameters of the above problem cell and the network optimization plan for the problem cell, and display the above obtained communication quality parameters And the network optimization scheme of the problem area is presented in the graph area of GIS. By adopting the technical solution of the present invention, the geographic information system tool can analyze the entire network according to the communication quality index input by the user, and present the problematic cells and network optimization solutions obtained from the analysis in different windows, and the detection process is convenient and fast. In addition, there is no need for staff to provide a network optimization scheme based on relevant parameters, which avoids misjudgment by manual operation and improves the accuracy of the network optimization scheme.

Those skilled in the art should understand that the embodiments of the present invention may be provided as methods, systems, or computer program products. Accordingly, the present invention can take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage, CD-ROM, optical storage, etc.) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It should be understood that each procedure and/or block in the flowchart and/or block diagram, and combinations of procedures and/or blocks in the flowchart and/or block diagram can be realized by computer program instructions. These computer program instructions may be provided to a general purpose computer, special purpose computer, embedded processor, or processor of other programmable data processing equipment to produce a machine such that the instructions executed by the processor of the computer or other programmable data processing equipment produce a Means for realizing the functions specified in one or more steps of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions may also be stored in a computer-readable memory capable of directing a computer or other programmable data processing apparatus to operate in a specific manner, such that the instructions stored in the computer-readable memory produce an article of manufacture comprising instruction means, the instructions The device realizes the function specified in one or more procedures of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions can also be loaded onto a computer or other programmable data processing device, causing a series of operational steps to be performed on the computer or other programmable device to produce a computer-implemented process, thereby The instructions provide steps for implementing the functions specified in the flow chart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the invention have been described, additional changes and modifications to these embodiments can be made by those skilled in the art once the basic inventive concept is appreciated. Therefore, it is intended that the appended claims be interpreted to cover the preferred embodiment as well as all changes and modifications which fall within the scope of the invention.

Apparently, those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. In this way, if the modifications and variations of the embodiments of the present invention fall within the scope of the claims of the present invention and equivalent technologies, the present invention also intends to include these modifications and variations.

Claims (8)

1. A method for multi-window presentation network optimization scheme, characterized in that, comprising: According to the communication quality index option input by the user on the GIS interface of the geographic information system, call the communication quality indicators of all the cells saved locally; According to the communication quality index, detecting a problem cell with a communication quality problem from all the cells, and presenting the problem cell in a geographic information system (GIS) window of the GIS interface; and Obtain the communication quality parameters of the problematic cell and the network optimization scheme for the problematic cell according to the communication quality index, and display the communication quality parameters and the network optimization scheme for the problematic cell in the GIS graph area present; Acquiring the communication quality parameters of the problematic cell and the network optimization scheme for the problematic cell according to the communication quality index, specifically including: Acquiring communication quality parameters of at least one problematic cell according to the communication quality index; sorting the at least one problematic cell according to the communication quality parameter, and presenting the sorted at least one problematic cell in a GIS window in a geographic information system GIS interface; and Obtain the network optimization plan of the at least one problematic cell according to the communication quality parameter, and present the communication quality parameter and the network optimization plan of the at least one problematic cell in a GIS chart window in the GIS interface; wherein, the The GIS interface includes at least a GIS window and a GIS chart window. 2. The method according to claim 1, wherein the method for obtaining the communication quality indicators of all cells comprises: Obtaining the communication quality indicators dynamically reported by each cell respectively; or, A communication quality index acquisition instruction is sent to each cell respectively to acquire the communication quality index of each cell at the current moment. 3. The method according to claim 1, wherein when it is detected that the user inputs at least two communication quality index options, further comprising: Invoking each communication quality indicator corresponding to the at least two communication quality indicator options stored locally; and In the GIS window, a sub-window is used for presentation corresponding to each of the communication quality indicators. 4. The method of claim 1, further comprising: When it is detected that the user selects the sub-district to be detected in the GIS window, the latitude and longitude of the sub-district to be detected is obtained; According to the latitude and longitude of the cell to be detected, call the communication quality index corresponding to the latitude and longitude saved locally; Acquire communication quality parameters of the cell to be detected according to the communication quality index. 5. A device for multi-window presentation of network optimization solutions, characterized in that it comprises: The calling unit is used to call the communication quality indicators of all the cells stored locally according to the communication quality indicator options input by the user on the GIS interface of the geographic information system, and send the communication quality indicators of all the cells to the presentation unit; The presenting unit is configured to receive the communication quality indicators of all the cells sent by the calling unit, detect the problem cells with communication quality problems from all the cells according to the communication quality indicators, and display the problem cells Present in the geographic information system GIS window of the GIS interface; and according to the communication quality index, obtain the communication quality parameters of the problem cell and the network optimization plan for the problem cell, and use the communication quality parameters and The network optimization scheme for the problematic community is presented in the GIS graph area; The presentation unit is specifically used for: Acquiring communication quality parameters of at least one problematic cell according to the communication quality index; sorting the at least one problematic cell according to the communication quality parameter, and displaying the sorted at least one problematic cell in a geographic information system (GIS) interface and presenting the GIS window; and obtaining the network optimization scheme of the at least one problematic cell according to the communication quality parameter, and displaying the communication quality parameter and the network optimization scheme of the at least one problematic cell in the GIS chart window in the GIS interface performing presentation; wherein, the GIS interface at least includes a GIS window and a GIS chart window. 6. The device according to claim 5, further comprising a first acquisition unit configured to: Obtain the communication quality index dynamically reported by each cell respectively; or, send a communication quality index acquisition instruction to each cell to obtain the communication quality index of each cell at the current moment. 7. The device according to claim 5, wherein the presentation unit is further configured to: When it is detected that the user inputs at least two communication quality indicator options, call each communication quality indicator corresponding to the at least two communication quality indicator options stored locally; and in the GIS window, corresponding to each A communication quality indicator is presented using a sub-window. 8. The device according to claim 5, further comprising a second acquiring unit, configured to: When detecting that the user selects the sub-district to be detected in the GIS window, obtain the latitude and longitude of the sub-district to be detected; according to the latitude and longitude of the sub-district to be detected, call the communication quality index corresponding to the longitude and latitude stored locally; according to the The communication quality index is used to obtain the communication quality parameters of the cell to be detected.