JP2007124711A - Wireless communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To give an index to a user for deciding whether the user should stay at a current location or should move to another location. <P>SOLUTION: A wireless communication method comprises a database 6 for accumulating location information of radio base stations, and a management server 5 which retrieves from the database 6 radio base stations located around a location in location information of a mobile communication terminal, acquires the number of connected terminals of the radio base station corresponding to radio base station identification information of a radio base station being connected by the mobile communication terminal and the number of connected terminals of the radio base stations detected by the retrieval, and transmits the acquired numbers to the mobile communication terminal of the user. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a wireless communication environment information providing system and a mobile communication terminal.

  2. Description of the Related Art In recent years, mobile communication terminals such as mobile phones have been realized that can receive moving image data and reproduce moving images via a wireless communication line. Also, wireless communication lines have been increased in transmission speed in order to smoothly transmit a large amount of data such as moving image data. For example, the cdma2000 1xEV-DO method is known as a high-speed wireless communication method.

  The above cdma2000 1xEV-DO system is a standardized version of HDR (High Data Rate), which is an extension of cdma2000 1x by Qualcomm. Standardized by the “Packet Data Air Interface Specification”, cdmaOne method currently being serviced by KDDI in Japan (ARIB T-53 in Japan, EIA / TIA / IS-95 etc. in North America, Korea, etc.) However, the cdma2000 1x system corresponding to the third generation system (3G) is a system aimed at further improving the communication speed by specializing in data communication. In cdma2000 lxEV-DO, EV means Evolution and DO means Data only.

  In the cdma2000 1xEV-DO scheme, the base station switches the modulation scheme of data transmitted from the base station to the terminal based on the information notified of the reception status received from the mobile communication terminal, so that the reception status of the terminal is changed. When it is good, it is possible to use a high communication rate with low error tolerance but a high speed, and when the reception state is poor, it is possible to use a communication rate with low error but high error resistance.

  In the downlink direction of the cdma2000 1xEV-DO method (direction from the base station to the mobile communication terminal), the time is divided in units of 1/600 seconds, and only one mobile communication terminal is communicated within that time, Time division multiplex access (TDMA), which communicates with a plurality of portable communication terminals by switching the communication partner portable communication terminal according to time, is employed. As a result, the base station can always transmit data with the maximum power to each mobile communication terminal, and can perform data communication between the mobile communication terminals at the fastest communication speed. .

  In this way, the base station schedules the communication terminal device that is the transmission destination of the downlink high-speed packet for each divided time unit (time slot), or adaptively modulates according to the state of the propagation path of the communication terminal device to transmit. For example, adaptive modulation is performed to determine the system, coding rate, and code multiplexing number.

In the cdma2000 1xEV-DO portable communication terminal described above, the data communication speed in the downlink direction automatically varies according to the reception state of the portable communication terminal as described above. For this reason, it is very difficult for the user to know what data communication speed can be obtained. Therefore, in the conventional mobile communication terminal, the downlink data communication speed is predicted on the terminal side based on the reception state of the signal from the base station in the terminal, and the predicted downlink data communication speed or the predicted downlink data communication speed is averaged over a predetermined period. This information is notified to the user (see, for example, Patent Document 1).
JP 2002-300634 A

  However, the above-described conventional technique can notify the user of the predicted downlink communication speed predicted by the terminal at the current position, but predicts the accurate downlink communication speed based on the scheduling and adaptive modulation of the base station. I can't do it. Further, the predicted downlink communication speed at other positions cannot be notified. For this reason, the user does not know whether it is better in the wireless communication environment to stay at the current position or a better wireless communication environment can be obtained by moving to another position.

  The present invention has been made in view of such circumstances, and its purpose is wireless communication that can give an indication to a user whether to stay at the current position or move to another position. It is to provide an environmental information providing system and a mobile communication terminal.

  In order to solve the above problems, a wireless communication environment information providing system according to the present invention includes a wireless communication network including a plurality of wireless base stations and a mobile communication terminal that performs wireless communication with the wireless base station. The wireless communication environment information providing system according to claim 1, wherein position information acquisition means for acquiring position information of the mobile communication terminal and wireless base station identification information for identifying the wireless base station to which the mobile communication terminal is connected are acquired. An identification information acquisition means, the number of connected terminals of the wireless base station corresponding to the wireless base station identification information, and the number of connected terminals of wireless base stations around the wireless base station are acquired, and based on the acquired number of connected terminals And information providing means for providing the information to the portable communication terminal.

  In the wireless communication environment information providing system according to the present invention, based on the acquired number of connected terminals, the wireless communication environment information providing system comprises a predictive calculation means for calculating predicted downlink data communication speed information of the mobile communication terminal, the information providing means, The predicted downlink data communication speed information is notified to the user.

  In the wireless communication environment information providing system according to the present invention, map database means for storing map data, map acquisition means for acquiring map data around the mobile communication terminal from the map database means, and map acquisition Map generating means for generating a predicted throughput map based on the number of connected terminals acquired by the connected terminal number acquiring means based on the map data obtained by the means, and the information providing means comprises the predicted throughput Providing a map to the user.

  In the wireless communication environment information providing system according to the present invention, the information providing means receives a request signal including location information and wireless base station identification information from the mobile communication terminal, and sends information based on the number of connected terminals to the mobile communication It is provided to a terminal.

  In the wireless communication environment information providing system according to the present invention, the information providing means continuously sends information based on the number of connected terminals to the mobile communication terminal until receiving a signal indicating the end of the request from the mobile communication terminal. It is characterized by providing.

  A mobile communication terminal according to the present invention includes position information acquisition means for acquiring position information, radio base station identification information for identifying a connected radio base station, and transmission means for transmitting the position information to a connected terminal number acquisition device. Receiving means for receiving the number of connected terminals of the radio base station from the connected terminal number acquisition device; and predictive calculating means for calculating predicted downlink data communication speed information based on the number of connected terminals received by the receiving means; And a notifying means for notifying the predicted downlink data communication speed information.

  According to the present invention, it is possible to give an indication as to whether the user should stay at the current position or move to another position.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a wireless communication environment information providing system according to an embodiment of the present invention. In FIG. 1, portable communication terminals 1a to 1e according to an embodiment of the present invention (hereinafter referred to as “mobile communication terminal 1” unless otherwise specified) are cdma2000 1xEV-DO terminals, for example, mobile phones. It is. Radio base stations 2a and 2b (hereinafter referred to as “radio base station 2” unless otherwise distinguished) are cdma2000 1xEV-DO base stations. The mobile communication terminal 1 performs wireless communication connection with the wireless base station 2 that provides the cell at the current position, and performs voice communication (for example, VoIP) and data communication. In FIG. 1, the mobile communication terminals 1a, 1b, 1c, and 1d are at the position of the radio base station 2a, and are in radio communication connection with the radio base station 2a. The mobile communication terminal 1e is in the position of the radio base station 2b around (for example, adjacent to) the radio base station 2a and is in radio communication connection with the radio base station 2b.

  The wireless packet network 3 is a packet network as an access network for the mobile communication terminal 1 and is connected to the mobile communication terminal 1 via the wireless base station 2. The wireless packet network 3 is connected to an IP (Internet Protocol) network 4 such as the Internet. The mobile communication terminal 1 can be connected to the IP network 4 via the radio base station 2 and the radio packet network 3.

  The management server 5 performs management related to notification of wireless communication environment information to the mobile communication terminal 1. The management server 5 is connected to the IP network 4 and can access the radio base station 2 via the IP network 4 and the radio packet network 3. Also, access from the mobile communication terminal 1 is accepted.

  The database 6 stores information (location information, PN number, etc.) and map data related to each radio base station 2. The management server 5 can access the database 6 to search the location information or map data of the radio base station 2 and acquire the location information or desired map data of the desired radio base station 2.

  FIG. 2 is a block diagram showing a configuration of the mobile communication terminal 1 shown in FIG. In FIG. 2, the wireless communication unit 101 performs wireless communication with the wireless base station 2. The radio quality monitoring unit 102 monitors the reception state of the signal from the radio base station 2 (radio wave intensity, CIR (carrier-to-interference ratio), etc.). The PN number notification unit 103 notifies the management server 5 of the PN number of the wireless base station 2 in communication. This PN number is packetized by the data communication unit 107 described later and transmitted to the management server 5. The PN number is identification information unique to the radio base station 2. The throughput information receiving unit 104 receives throughput information from the management server 5. This throughput information is received as a packet from the management server 5 by the data communication unit 107 described later. Throughput information is information including the number of mobile communication terminals 1 connected to a certain radio base station 2 (number of connected terminals).

  Based on the reception state data received from the wireless quality monitoring unit 102 and the throughput information received by the throughput information receiving unit 104, the prediction calculation unit 105 is data in the downlink direction (direction from the wireless base station to the portable communication terminal). Performs calculation to predict communication speed. Further, information obtained by averaging the predicted downlink data communication speed over a predetermined period may be calculated.

  The display unit 106 includes a display panel such as a liquid crystal display panel and a display control circuit. The data communication unit 107 performs data communication using packets with the management server 5 and the like. The data communication unit 107 transmits and receives packets via the wireless communication unit 101. The position information acquisition unit 108 is a GPS (Global Positioning System), for example, and acquires position information indicating the current position. This position information is packetized by the data communication unit 107 and transmitted to the management server 5. The operation unit 109 includes a numeric keypad for inputting a telephone number, various function keys, and the like. The throughput information request unit 110 requests throughput information from the management server 5. This request is packetized by the data communication unit 107 and transmitted to the management server 5.

  FIG. 3 is a block diagram showing a configuration of the radio base station 2 shown in FIG. In FIG. 3, the wireless communication unit 201 performs wireless communication with the mobile communication terminal 1. The connected terminal number monitoring unit 202 monitors the number of connected mobile communication terminals 1 (number of connected terminals). The connection terminal number request receiving unit 203 receives a connection terminal number request from the management server 5. This request for the number of connected terminals is received as a packet from the management server 5 by the data communication unit 205 described later. The connected terminal number transmitting unit 204 notifies the management server 5 of the connected terminal number received from the connected terminal number monitoring unit 202. The number of connected terminals is packetized by the data communication unit 205 described later and transmitted to the management server 5. The data communication unit 205 performs packet data communication with the management server 5 and the like. The data communication unit 205 transmits and receives packets via the wireless packet network 3.

  Next, operations according to the wireless communication environment information providing system shown in FIG. 1 will be described.

  FIG. 4 is a sequence chart showing a flow of wireless communication environment information notification processing by the wireless communication environment information providing system shown in FIG.

  4, first, the user of the mobile communication terminal 1a operates the operation unit 109 to request wireless communication environment information (step S1). With this operation, the mobile communication terminal 1a requests throughput information from the management server 5 (step S2). Further, the mobile communication terminal 1a notifies the management server 5 of the PN number (step S3) and transmits the current position information data (step S4).

  Next, the management server 5 transmits a request for the number of connected terminals to the radio base station 2a corresponding to the PN number received from the mobile communication terminal 1a (step S5) and transmits a PN number (step S6). Next, when receiving the request for the number of connected terminals from the management server 5, the radio base station 2a returns the number of currently connected terminals to the management server 5 (step S7).

  In addition, the management server 5 searches the database 6 for the radio base station 2 located around the position (for example, adjacent) of the mobile communication terminal 1a (step S8). Next, the management server 5 transmits a connection terminal number request to the radio base station 2b discovered as a result of the search (step S9). Next, when receiving the request for the number of connected terminals from the management server 5, the radio base station 2b returns the number of currently connected terminals to the management server 5 (step S10).

  Next, the management server 5 transmits the number of connected terminals from each radio base station 2 to the mobile communication terminal 1a (step S11). Next, when receiving the number of connected terminals from the management server 5, the mobile communication terminal 1 a calculates prediction data and displays it on the display unit 106. For the currently connected radio base station 2a, a predicted downlink data communication speed is calculated in consideration of the number of connected terminals of the radio base station 2a. For the wireless base station 2b around the wireless base station 2a, the predicted downlink data communication is performed based on the number of connected terminals of the wireless base station 2b and the reception state of the wireless base station 2a or the reception state of the wireless base station 2b. Calculate the speed.

  Thereby, based on the displayed prediction data, the user of the mobile communication terminal 1a should stay in the current position of the wireless base station 2a as it is in the wireless communication environment or the positions of the surrounding wireless base stations 2b. It is possible to determine whether it is possible to obtain a better wireless communication environment by moving to.

  Next, FIG. 5 is a sequence chart showing the flow of another wireless communication environment information notification process by the wireless communication environment information providing system shown in FIG.

  In FIG. 5, the operation of the mobile communication terminal 1a by the user (Step S1) receives the number of connected terminals by the management server 5 (Step S9), and the number of currently connected terminals is returned from the radio base station 2b (Step S10). The process up to this point is the same as in FIG. 4, and the description thereof is omitted.

  In step S21 of FIG. 5, the management server 5 searches the database 6 for map data around the position of the position information received from the mobile communication terminal 1a (for example, a range including the adjacent wireless base station 2), and the corresponding map. Get the data. Then, based on the map data, a predicted throughput map based on the number of connected terminals of each radio base station 2 is created. Information that can determine the magnitude relationship of the downlink data communication speed predicted according to the number of connected terminals of each radio base station 2 is given to the predicted throughput map. For example, the cell range of each radio base station 2 is color-coded according to the magnitude level of the predicted downlink data communication speed.

  Next, the management server 5 edits the predicted throughput map as image data (step S22), and transmits the image data to the mobile communication terminal 1a (step S23). Next, the mobile communication terminal 1a displays the image data received from the management server 5 on the display unit 106 (step S24).

  Thereby, based on the displayed predicted throughput map, the user of the mobile communication terminal 1a should stay in the current position of the wireless base station 2a as it is in the wireless communication environment or the surrounding wireless base station 2b. It can be determined whether moving to a position can provide a better wireless communication environment.

  The management server 5 generates the predicted throughput map, thereby reducing the load on the terminal side for calculating the predicted throughput in consideration of the number of terminals. In addition, since the content of the predicted throughput status edited on the map data is displayed on the terminal, the target location can be recognized in detail.

  As described above, according to the present embodiment, it is possible to give an indication as to whether the user should stay at the current position or move to another position. In addition, since information is generated in response to a request, real-time information can be provided. Furthermore, unless a request (request) indicating the end of the throughput information request is received from the terminal, the number of connected terminals that continuously change in real time and the predicted throughput map are transmitted, so that the system changes from moment to moment. It can communicate the latest situation and give the latest indicators to move.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design changes and the like within a scope not departing from the gist of the present invention.

  For example, the user may be notified by text or voice whether the user should stay at the current position or move to any position.

  Further, only the number of connected terminals of each radio base station may be notified to the user. Also by this, based on the number of connected terminals, the user can determine that it is better in the wireless communication environment to move to the position of a wireless base station having a smaller number of connected terminals, for example.

  In addition, the management server does not request the number of connected terminals from each radio base station, but if it is a device that grasps and manages the number of connected terminals, the base station control station that controls the radio base station and other It may be a node connected to the network.

It is a block diagram which shows the structure of the radio | wireless communication environment information provision system which concerns on one Embodiment of this invention. It is a block diagram which shows the structure of the mobile communication terminal 1 shown in FIG. It is a block diagram which shows the structure of the wireless base station 2 shown in FIG. It is a sequence chart which shows the flow of the wireless communication environment information notification process by the wireless communication environment information provision system shown in FIG. It is a sequence chart which shows the flow of the other wireless communication environment information notification process by the wireless communication environment information provision system shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 (1a-1e) ... Portable communication terminal, 2 (2a, 2b) ... Wireless base station, 3 ... Wireless packet network, 4 ... IP network, 5 ... Management server, 6 ... Database, 101, 201 ... Wireless communication part, DESCRIPTION OF SYMBOLS 102 ... Wireless quality monitoring part, 103 ... PN number notification part, 104 ... Throughput information receiving part, 105 ... Prediction calculating part, 106 ... Display part, 107, 205 ... Data communication part, 108 ... Position information acquisition part, 109 ... Operation 110, throughput information requesting unit, 202 ... connected terminal number monitoring unit, 203 ... connected terminal number request receiving unit, 204 ... connected terminal number transmitting unit.

Claims (6)

A wireless communication environment information providing system in a wireless communication network composed of a plurality of wireless base stations and a mobile communication terminal that wirelessly communicates with the wireless base station,
Position information acquisition means for acquiring position information of the mobile communication terminal;
Identification information obtaining means for obtaining wireless base station identification information for identifying the wireless base station to which the mobile communication terminal is connected;
The number of connected terminals of a wireless base station corresponding to the wireless base station identification information and the number of connected terminals of wireless base stations around the wireless base station are acquired, and information based on the acquired number of connected terminals is stored in the mobile communication Information providing means to be provided to the terminal;
A wireless communication environment information providing system comprising: Based on the acquired number of connected terminals, comprising predictive calculation means for calculating predicted downlink data communication speed information of the mobile communication terminal,
The wireless communication environment information providing system according to claim 1, wherein the information providing unit notifies the user of the predicted downlink data communication speed information. Map database means for storing map data;
Map acquisition means for acquiring map data around the mobile communication terminal located from the map database means;
Based on the map data obtained by the map acquisition means, comprising a map generation means for generating a predicted throughput map based on the number of connected terminals acquired by the connected terminal number acquisition means,
The wireless communication environment information providing system according to claim 1, wherein the information providing unit provides the predicted throughput map to a user.   The information providing means receives a request signal including position information and radio base station identification information from the mobile communication terminal, and provides the mobile communication terminal with information based on the number of connected terminals. The wireless communication environment information providing system described.   The said information provision means provides the information based on the said number of connected terminals continuously to the said mobile communication terminal until it receives the signal which shows the completion | finish of the said request | requirement from the said mobile communication terminal. Wireless communication environment information provision system. Position information acquisition means for acquiring position information;
Transmitting means for transmitting wireless base station identification information for identifying a connected wireless base station and the position information to a connected terminal number acquiring device;
Receiving means for receiving the number of connected terminals of the radio base station from the connected terminal number acquiring device;
Prediction calculation means for calculating predicted downlink data communication speed information based on the number of connected terminals received by the receiving means;
Informing means for informing the predicted downlink data communication speed information;
A mobile communication terminal comprising:

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