KR20020073013A - In-building wireless call quality management method on website - Google Patents

Abstract

PURPOSE: A method for managing an in-building wireless speech quality on a web site is provided to manage the speech quality of a mobile communication network on the whole by linking in-building speech quality measurement data with map and building information on the web and easily and visually confirming and sharing the in-building speech quality measurement data in a post associated with a measurement post. CONSTITUTION: A measurer collects in-building mobile phone speech quality measurement data or speech quality information from a client(201), and inputs corresponding speech quality information of a building to an analyzer(202). The analyzer performs a polygon process of a measurement section of a map and classifies whether the in-building speech quality measurement data are a value measured in a certain measurement section(203). The analyzer compares and analyzes records of each floor-classified speech quality measurement data measured in the same polygon(same coordinate) and determines a superior and inferior ranking(204). The analyzer visually displays speech quality superior and inferior section in an entire measurement section about a specific floor with reference to a geographic information database, or separates the speech quality superior and inferior section according to each floor and displays the separated speech quality superior and inferior sections graded as excellence(green), badness(blue) and interruption(red)(205). Data linked with building information and geographic information provided from the analyzer are displayed so that the user connects to an information communication network and simultaneously sees the data(206).

Description

In-building wireless call quality management method on website}

The present invention relates to a method for managing in-building wireless call quality on a web and a computer-readable recording medium recording a program for realizing the method. In particular, the present invention relates to an in-building according to a measurement object in a document format. It is possible to totally manage in-building wireless call quality of mobile communication network by enabling wireless call quality measurement data to be visually checked and shared by the relevant departments, not the measurement department, in conjunction with map or building information on the web. It would be.

Explosive acceptance of subscribers since the start of commercially available digital cellular services (DCS) and personal communications services (PCS), as well as future wireless services such as wireless local loop (WLL) and IMT-2000 (or FPLMTS) It is increasing.

When a wireless communication service provider wants to install a plurality of base stations in each area in order to guarantee call quality, a cell planner designing a callable area that each base station can cover is performed. In accordance with such cell planning, efforts will be made to improve call quality in the shadow area by expanding base stations, installing optical micro-cells, and adjusting hand-off parameters.

Typically, call quality measurements rely on out-door measurements.

For reference, a method of measuring call quality in the out-door uses a numerical road map used by a GPS (GPS) receiver and a vehicle navigation system. More specifically, the out-door measurement method measures by having a measurement agent mount a GPS receiver in a vehicle and move around a selected area for cell planning. At this time, the GPS receiver tracks the location where the vehicle moves to provide the tracked vehicle location information, and maps and records the call quality measured through the terminal measured at each moved location to the absolute location of the numerical road map. By repeating the operation, the call quality measurement is performed for the area selected for cell planning.

The call quality of mobile communication service is managed by road, region, building type, building size and building outline quality level (quality level by floor, measurement location, map mapping location, competitor quality level, etc.).

On the other hand, if you look at the process of measuring call quality in in-building, first measure the quality of the in-building call through a measuring instrument, and then transfer the measured data to Microsoft Excel or Microsoft Access. After the database, the relevant department was used as a reference in the form of documents based on the data.

However, in the related art, since the in-building wireless terminal call quality management is managed in the form of documents (Microsoft Excel, Microsoft Access, etc.), data sharing has been difficult, so it is linked with map or building information. Not only could not be visually seen, but also it was not easy to determine whether the call quality status is good or bad in the relevant department, not the measurement department.

The present invention has been proposed to solve the above problems, by implementing the in-building call quality measurement data in conjunction with the map and building information on the web, it is easy to visually check the call quality in the relevant department, not the measurement department And a computer that records the in-building wireless call quality management method and program for realizing the method so that the call quality of the mobile communication network can be collectively managed (to grasp the current state of the call quality and to analyze the cause of the defect). The purpose is to provide a readable recording medium.

1 is an exemplary configuration of a wireless call quality management system on the web to which the present invention is applied.

2 is a flow diagram of an embodiment of an in-building wireless call quality management method on the web according to the present invention;

* Explanation of symbols for the main parts of the drawings

10: measuring instrument 20: analyzer

30: geographic information database 40: building information database

50: information and communication network 60: user pc

In order to achieve the above object, the present invention provides a call quality management method for in-building wireless terminal on the web, and collects call quality measurement data for a call quality measurement area for each floor in an in-building through a measuring device. A first step of making; A second step of, upon receipt of the call quality measurement data, the analyzer processing each call quality measurement data in a polygon (minimum unit of the map) to divide the call quality measurement data into call quality measurement regions (by floor); A third step of comparing and analyzing the ranks of the carriers and the floors of the call quality measurement data existing in the corresponding polygons for each polygon in the entire measurement target area in the building; And according to the user's request on the web, the analyzer compares the call quality measurement data of each service provider and floor of the call quality measurement target area (building) with the building information and the geographic information on the screen of the user terminal. And a fourth step of displaying.

In addition, the present invention provides a call quality for the call quality measurement area of each floor in the building (in-building) in the wireless call quality management system having a processor for the in-building wireless call quality management on the Web A first function of collecting measurement data; A second function in which, upon receipt of the call quality measurement data, the analyzer processes each call quality measurement data in a polygon (minimum unit of the map) and divides the call quality measurement data into call quality measurement regions (by floor); A third function of comparatively analyzing the rankings of the service provider and the floor of the call quality measurement data existing in the polygons for each polygon in the entire measurement target area in the building; And according to the user's request on the web, the analyzer compares the call quality measurement data of each service provider and floor of the call quality measurement target area (building) with the building information and the geographic information on the screen of the user terminal. A computer readable recording medium having recorded thereon a program for realizing a fourth function of displaying is provided.

The present invention relates to call quality analysis and statistical processing based on subscriber usage environment.

Through the present invention, the call quality measurement data according to the measurement target (preferably building management grade, building outline quality level, base station name, repeater name, repeater service area, etc.) in document form is linked to map information and building information on the web. By implementing it, it is possible to easily check and share the call quality visually even in the related departments, not the measurement department, so that the call quality of the mobile communication network can be collectively managed (call quality status and bad cause analysis).

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary configuration diagram of a wireless call quality management system on the web to which the present invention is applied. In the drawings, "10" is a measuring instrument, "20" is a tool, "30" is a geographic information database, and "40". Denotes a building information database, "50" denotes an information communication network and "60" denotes a user PC.

First, the measurer 10 collects in-building call quality measurement data (quality information, coordinate information, time information) for a call quality measurement target region and provides the same to the analyzer 20.

At this time, when measuring the call quality of the wireless section of the in-building area, the absolute coordinate of the current position provided from the measuring device 10 is set as a starting position, and the terminal or system using the direction information and the acceleration information provided from each direction sensor and the acceleration sensor. The coordinates of the moved position are tracked by calculating the relative distance at which the main body moves and adding the calculated relative distance to the moving start position. At this time, the position coordinate tracked when measuring the call quality in the wireless section of the in-building area means a relative position coordinate moved from the absolute start position coordinate.

However, in the out-door area, only the two-dimensional coordinate information of the x and y axes is sufficient in the out-door area, but in the in-building area, the two-dimensional information only has the same coordinate value for each floor. Since it may be the same, three-dimensional coordinate information about the x, y, and z axes is required.

However, it is obvious that the same effect can be obtained by adding layer information (or location information) to the two-dimensional coordinate information rather than the three-dimensional coordinate information. In this case, the in-building call quality measurement data includes quality information, coordinate information, time information, and floor information (or location information).

On the other hand, the main processor of the measuring device 10 receives the parameters of the wireless communication signal received by the terminal at a predetermined time interval, e.g., every 1 second interval. Therefore, the moved position every one second interval is set to the wireless section call quality measurement position.

In addition, the coordinate values of the measurement position set by the main processor and the parameter values provided from the terminal at the measurement position are mapped to each other and stored in a table form. By repeating this process, parameters used to measure the call quality over the wireless section can be extracted at various locations within a specific area of the inbuilding.

In addition, the call quality measurement table (in-building call quality measurement data) stored by the main processor may be stored in a storage medium, for example, a flash memory, a hard disk, or transmitted to the analyzer 20 in real time.

The measuring device 10 may be preferably used as a portable diagram for carrying out wireless section call quality by directly carrying each floor in a building. In this case, the measurement data measured by the measuring device 10 may be used as a terminal or a portable terminal. You can enter it manually on the web, or if you have data in a DB, copy it and enter it.

Alternatively, it may be used for a fixed purpose that can be fixedly arranged and operated in an area where the call quality of the wireless section needs to be intensively checked. In case of using as a fixed purpose, the absolute coordinate value of a fixedly arranged measurement position must be known. And grasps the absolute coordinates (two-dimensional coordinate information with three-dimensional coordinates or floor information (location information) added) of the fixedly arranged position, and maps the coordinate values of the fixed position with the call quality measured from these coordinates Store in

Manage in-building call quality measurement data by region, address, building type, building name, building scale, and building outline quality level (quality level for each floor, measurement location, map mapping location, competitor quality level, etc.) For management, the analyzer 20 records records of in-building call quality measurement data based on the coordinate information of the in-building call quality measurement data (quality information + coordinate information + time information) imported from the measuring instrument 10 ( The records are analyzed by linking polygonal (minimum units of the map) building information data such as measurement floor, measurement location, map mapping location, main service base station, competitor quality level and floor quality level.

The analyzer 20 compares the records of each floor measured at the same coordinates to determine the priority ranking. This can be done by comparing each layer's records (since they have coordinates) within a polygon.

In addition, the analyzer 20 displays the call quality measurement data by displaying the result of comparison compared with the geographic information database 30 and the building information database 40 by color or by separating each floor on a map, or sheet. ), Charts, etc.

Here, the building information database 40 includes a management grade (building type, building name, area, building scale, measurement date), building outline quality level (layer quality level, measurement place, map mapping location, competitor quality level), base station name, Repeater name, repeater service area, and field survey date are stored.

The present invention makes it possible to compare call quality by floor and measurement data statistics by showing measurement data on an electronic map on the web.

Therefore, the management department can be connected to the information communication network 50 through the user PC (60) without transmitting and receiving the wireless quality measurement data associated with the building information and geographic information provided by the analyzer 20 at the same time, You can enjoy better visual effects and drastically reduce the time required to check call quality. This means that the analyzer 20 shares the in-building call quality information of the building according to the user's demand on the web, and the call quality information for the building type is good (green), poor (blue), unsatisfactory (by floor and section). By red and the like.

For example, the analyzer 20 displays the quality level in red (R), green (G), and blue (B) as shown in Table 1 below.

division Management standards Display input Good Ec / Io≥-10dB green G Bad -14dB≤Ec / Io <-10dB blue B Regret Ec / Io <-14dB Red R Condition -If Rx Power≥-94dBm, the above condition is applied.- If Rx Power <-94, it is not managed.

In addition, when displaying the map mapping position, the analyzer 20 may segment and display the floor plan as 1 to 6 as follows. Here, 6 means the entire layer.

One 2 5 3 4

In addition, the analyzer 20 may display the general call quality level for the entire building, the general call quality level for the entire measurement floor as R, G, and B. Changes and building specifics can also be displayed.

2 is a flowchart illustrating an embodiment of an in-building radio call quality management method on a web according to the present invention.

As shown in Figure 2, the in-building wireless call quality management method according to the present invention, first, in-building mobile phone call quality measurement data (that is, "quality information + three-dimensional coordinate information + time information" in the measuring device 10). Or preferably "Quality information + 2D marker information + location information (ie, floor information) + time information") or call quality information collected from the customer (201), the call quality of the building corresponding to the analyzer 20 Enter the information (202).

Thereafter, the analyzer 20 performs a polygon processing on the measurement section of the map to distinguish which measurement section the in-call call quality measurement data is measured in (203). Based on the coordinate information included in the in-building call quality measurement data, it adds polygons (minimum units of the map) such as measurement layer, measurement location, map mapping location, main service base station, competitor's quality level and floor quality level to the measurement data. It is possible by doing.

Next, the analyzer 20 compares and analyzes records of call quality measurement data for each floor measured in the same polygon (coordinate), and determines a superior ranking (204).

In addition, referring to the geographic information database 30, the call quality superiority section in the entire measurement section may be visually shown for a specific floor, and may be separated by each floor to be good (green), bad (blue), and poor (red). (205) or the like. Of course, in addition to displaying on the map, it is obvious that it can be output as a chart, sheet, and the like.

Subsequently, the user connects to the information communication network 50 without transmitting or receiving a file and displays the data on the screen so that the building information and the geographic information associated with the analyzer 20 can be simultaneously viewed (206).

As described above, the present invention enables call quality analysis and statistical processing based on subscriber usage environment. Through the present invention, it is possible to directly find in-building quality measurement data and analyze the radio wave environment by measurement layer, measurement location, map mapping location, main service base station, competitor's quality level, and floor quality level. In addition, it is possible to analyze the call quality status of each floor based on the measured data.

The method of the present invention as described above may be implemented as a program and stored in a computer-readable recording medium (CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, etc.).

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

The present invention as described above, by allowing the user PC to view the data associated with the building information and geographic information at the same time through the analyzer connected to the information communication network without a file transmission and reception, the time required to check the visual effect and call quality It can greatly reduce and share in-building call quality information of the building according to the user's needs, and it is effective to classify the call quality information into good, bad and unsatisfactory by floor and section of each floor. .

Claims (6)

In the in-building wireless call quality management method on the web, A first step of collecting call quality measurement data for a call quality measurement area of each floor in an in-building through a measuring device; A second step of, upon receipt of the call quality measurement data, the analyzer processing each call quality measurement data in a polygon (minimum unit of the map) to divide the call quality measurement data into call quality measurement regions (by floor); A third step of comparing and analyzing the ranks of the carriers and the floors of the call quality measurement data existing in the corresponding polygons for each polygon in the entire measurement target area in the building; And According to the user's demand on the web, the analyzer displays the call quality measurement data of each service provider and floor that have been compared and analyzed for the corresponding call quality measurement area (building) on the screen of the user terminal by linking the building information and the geographic information. 4th step In-building wireless terminal call quality management method on the Web comprising a. The method of claim 1, The fourth step, According to the analysis result of the call quality measurement data of each floor in each polygon in the entire measurement area, the user can visually show the superior call quality prevalence interval in the entire measurement area to any user. In-building wireless terminal call quality management method. The method of claim 1, The fourth step, In-building wireless on the web characterized in that each polygon is separated by each floor and displayed by color according to the analysis result of the call quality measurement data of each floor existing in the corresponding polygon for each polygon. Terminal call quality management method. The method of claim 1, The fourth step, According to the analysis result of call quality measurement data of each floor in each polygon in each measurement area, the call quality comparison result of each floor is output as chart, sheet, print, etc. Wireless terminal call quality management method. The method according to any one of claims 1 to 4, The analyzer, Manage the in-building call quality measurement data by region, address, building type, building name, building scale, and building outline quality level (quality level for each floor, measurement location, map mapping location, competitor quality level, etc.) In-building wireless terminal call quality on the web, which not only shows building information on the floor but also manages call quality centered on the user so that the call quality can be checked whether it is good or bad by building floor and each block when selecting a building. How to manage. In order to manage in-building wireless call quality on the web, a wireless call quality management system having a processor, A first function of collecting call quality measurement data for a call quality measurement area for each floor in an in-building through a measuring device; A second function in which, upon receipt of the call quality measurement data, the analyzer processes each call quality measurement data in a polygon (minimum unit of the map) and divides the call quality measurement data into call quality measurement regions (by floor); A third function of comparatively analyzing the rankings of the service provider and the floor of the call quality measurement data existing in the polygons for each polygon in the entire measurement target area in the building; And According to the user's request on the web, the analyzer compares the call quality measurement data of each service provider and floor, which is compared and analyzed for the call quality measurement area (building), with the building information and the geographic information, and displays them on the user terminal screen. 4th function to A computer-readable recording medium having recorded thereon a program for realizing this.