JP2011109416A - Information collection device and information collection method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To collect accurate radio quality information even with users' radio terminals. <P>SOLUTION: The information collection device 300 which collects position information showing a position of the radio terminal, and radio quality information showing results of measuring radio quality at the position is provided with: a performance information acquisition part 321 which acquires terminal performance information showing the performance of the radio terminal which influences measurement accuracy of the radio quality; a registration part 322 which registers radio terminals having a predetermined performance or more, on the basis of the acquired terminal performance information; and a collection processing part 323 which collects the radio quality information only on the registered radio terminals. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an information collecting apparatus and an information collecting method for collecting position information indicating a position in a measurement area and wireless quality information indicating wireless quality at the position.

  Conventionally, in a wireless communication system, position information indicating a position in a measured area and wireless quality information indicating a wireless quality (for example, received signal strength) at the position are manually collected, and a dead zone in the measured area or It is carried out to grasp the weak electric field zone. For example, a measurement person carries equipment for measuring wireless quality and equipment for measuring position (GPS or the like) using a measurement vehicle, and collects position information and wireless quality information.

  Such a collection method by the measurer has a problem that the cost required for the equipment, the labor cost of the measurer, and the man-hours become enormous. For this reason, a method for solving the problem by automating the collection work has been proposed (for example, see Patent Document 1). Specifically, the position and wireless quality in the measurement area are measured using the user's wireless terminal, and the information collection device provided on the network side collects the measurement results.

Japanese Patent Laid-Open No. 2008-22065

  However, the user's wireless terminal may not have the required performance for measuring the wireless quality. In other words, the situation is that wireless terminals with high performance and wireless terminals with high performance relating to measurement of wireless quality are mixed.

  Therefore, the collection method using the user's wireless terminal has a problem that it is difficult to collect accurate wireless quality information because the measurement accuracy of the wireless quality is not guaranteed.

  Therefore, an object of the present invention is to provide an information collection device and an information collection method capable of collecting accurate wireless quality information even when a user's wireless terminal is used.

  In order to solve the above-described problems, the present invention has the following features. First, the first feature of the present invention is an information collection device (information collection device) that collects position information indicating a position of a wireless terminal (for example, the wireless terminal 100a) and wireless quality information indicating a measurement result of wireless quality at the position. Device 300), a performance information acquisition unit (performance information acquisition unit 321) for acquiring terminal performance information indicating the performance of the wireless terminal and affecting the wireless quality measurement accuracy, and the performance information acquisition A registration unit (registration unit 322) for registering a wireless terminal having a terminal performance equal to or higher than a required performance based on the terminal performance information acquired by the unit, and the wireless quality information only for the wireless terminal registered by the registration unit. The gist is to include a collection processing unit (collection processing unit 323) to collect.

  According to such a feature, even when radio terminals with high terminal performance and low radio terminals are mixed, radio quality information is collected only for radio terminals with terminal performance equal to or higher than the required performance. Quality measurement accuracy is guaranteed and accurate wireless quality information can be collected. Therefore, accurate wireless quality information can be collected even when the user's wireless terminal is used.

  A second feature of the present invention relates to the first feature of the present invention, wherein the terminal performance is at least one of a performance in which the wireless terminal measures wireless quality and a performance in which the wireless terminal adjusts transmission power. It is a summary.

  A third feature of the present invention relates to the first feature or the second feature of the present invention, wherein the registration unit registers a wireless terminal having the terminal performance equal to or higher than the required performance, and the wireless terminal to be registered. The terminal performance information is registered, and the collection processing unit corrects or weights the collected radio quality information using the registered terminal performance information.

  A fourth feature of the present invention relates to any one of the first to third features of the present invention, wherein the radio quality information collected by the collection processing unit is a call origination time of a radio terminal registered by the registration unit. The main point is to show the wireless quality.

  According to a fifth aspect of the present invention, there is provided an information collecting method for collecting position information indicating a position of a wireless terminal and wireless quality information indicating a measurement result of wireless quality at the position, wherein the information collecting apparatus is a wireless terminal. Acquiring terminal performance information indicating terminal performance that affects the measurement accuracy of radio quality, and the information collecting apparatus determines whether the terminal performance is a required performance based on the acquired terminal performance information. The gist of the invention is that it includes the steps of registering the above wireless terminals, and the information collecting device collecting the wireless quality information only for the registered wireless terminals.

  ADVANTAGE OF THE INVENTION According to this invention, even when it is a case where a user's radio | wireless terminal is utilized, the information collection apparatus and information collection method which can collect exact radio | wireless quality information can be provided.

1 is a schematic configuration diagram of a radio communication system according to an embodiment of the present invention. It is a block diagram which shows the structure of the radio | wireless terminal which concerns on embodiment of this invention. It is a block diagram which shows the structure of the wireless base station which concerns on embodiment of this invention. It is a block diagram which shows the structure of the information collection apparatus which concerns on embodiment of this invention. It is a flowchart which shows the reference terminal registration process which concerns on embodiment of this invention. It is a flowchart which shows the information collection process which concerns on embodiment of this invention.

  Next, an embodiment of the present invention will be described with reference to the drawings. Specifically, (1) the configuration of the wireless communication system, (2) the operation of the wireless communication system, (3) the effects of the embodiment, and (4) other embodiments will be described. In the description of the drawings in the following embodiments, the same or similar parts are denoted by the same or similar reference numerals.

(1) Configuration of Radio Communication System First, the configuration of the radio communication system according to the present embodiment will be described.

(1.1) Schematic Configuration of Radio Communication System FIG. 1 is a schematic configuration diagram of a radio communication system 1 according to the present embodiment. The wireless communication system 1 is, for example, a configuration based on LTE Release 9, which is a 3.9 generation (3.9G) mobile phone system, or LTE-Advanced, which is positioned as a 4th generation (4G) mobile phone system. It has a configuration based on.

  As illustrated in FIG. 1, the wireless communication system 1 includes wireless terminals 100a to 100h, wireless base stations 200a to 200c, and an information collection device 300. Note that the number of wireless terminals and the number of wireless base stations illustrated in FIG. 1 are merely examples, and more wireless terminals and wireless base stations are actually included in the wireless communication system 1.

  In the wireless communication system 1, a wide service area (area to be measured) is divided into communication area units called cells, and wireless base stations that are responsible for wireless communication with wireless terminals in the communication area are installed for each communication area. It covers a wide service area.

  In the example of FIG. 1, the radio base stations 200a to 200c form communication areas A1 to A3, respectively. Wireless terminals 100a to 100c are located in the communication area A1. Each of the radio terminals 100a to 100c is in a state where it is waiting from the radio base station 200a (idle state) or in a state where it is communicating with a communication partner via the radio base station 200a (active state). Wireless terminals 100d to 100f are located in the communication area A2. Each of the wireless terminals 100d to 100f is in a state of waiting from the wireless base station 200b or in a state of communicating with a communication partner via the wireless base station 200b. Wireless terminals 100g and 100h are located in the communication area A3. Each of the wireless terminals 100g and 100h is in a state of waiting from the wireless base station 200c or in a state of communicating with a communication partner via the wireless base station 200c.

  The radio base stations 200a to 200c are connected to the backhaul network 10 that is a wired communication network. The backhaul network 10 is provided by a telecommunications carrier and includes a router or the like not shown.

  The information collection device 300 is connected to the backhaul network 10. The information collection device 300 can communicate with the radio base stations 200 a to 200 c via the backhaul network 10. The information collecting apparatus 300 collects position information indicating the position of the wireless terminal and wireless quality information indicating the measurement result of the wireless quality at the position. In addition, the information collection device 300 has a function as a center that manages information related to subscribers of the wireless communication system 1.

(1.2) Detailed Configuration of Radio Communication System Next, detailed configurations of the radio terminals 100a to 100h, the radio base stations 200a to 200c, and the information collection device 300 will be described. Assume that the wireless terminals 100a to 100h are configured similarly, and the configuration of the wireless terminal 100a will be described as a representative of the wireless terminals 100a to 100h. Assume that the radio base stations 200a to 200c are configured in the same manner, and the configuration of the radio base station 200a will be described as a representative of the radio base stations 200a to 200c.

(1.2.1) Configuration of Radio Terminal FIG. 2 is a block diagram showing the configuration of the radio terminal 100a. As shown in FIG. 2, the wireless terminal 100a includes a wireless communication unit 110, a GPS (Global Positioning System) receiver 120, a control unit 130, a storage unit 140, an operation reception unit 150, a microphone 160, a speaker 170, a display unit 180, And a battery 190.

  The radio communication unit 110 is configured using, for example, a radio frequency (RF) circuit, a baseband (BB) circuit, and the like, and transmits and receives radio signals to and from the radio base station 200a. In addition, the wireless communication unit 110 performs encoding and modulation of a transmission signal and demodulation and decoding of a reception signal. The GPS receiver 120 receives a signal from a GPS satellite. The control unit 130 is configured using a CPU, for example, and controls various functions provided in the wireless terminal 100a. The storage unit 140 is configured using, for example, a volatile memory and a nonvolatile memory, and stores various types of information used for controlling the wireless terminal 100a.

  The operation receiving unit 150 is configured using a numeric keypad, function keys, a touch panel, or the like, and receives an operation from a user. The operation reception unit 150 receives an operation (such as input or selection of a telephone number) for designating a communication partner. Further, the operation reception unit 150 receives an operation (such as pressing a call key or a decision key) for making a call to a designated communication partner.

  The microphone 160 inputs an audio signal to the control unit 130 based on the collected audio. The speaker 170 outputs sound based on the sound signal from the control unit 130. The display unit 180 is a display that outputs characters and video. The battery 190 stores power to be supplied to each block of the wireless terminal 100a.

  The control unit 130 includes a call processing unit 131, a position measurement unit 132, and a radio quality measurement unit 133.

  The call processing unit 131 performs call processing when the operation receiving unit 150 receives an operation for making a call. The calling process is a process for performing a call connection with a communication partner, and is a process for mainly establishing a connection with the radio base station 200a.

  The position measuring unit 132 measures the geographical position of the wireless terminal 100a from the signal received by the GPS receiver 120. The measured position includes longitude, latitude, and altitude, but may be only longitude and latitude.

  The position information indicating the position measured by the position measuring unit 132 is transmitted from the radio communication unit 110 to the radio base station 200a. Here, the position information may be values such as longitude, latitude, and altitude, or may be information for calculating the values.

  The radio quality measurement unit 133 measures the radio quality of the downlink with the radio base station 200a. Specifically, the radio quality measurement unit 133 measures the radio quality of a radio signal (such as a reference signal) received by the radio communication unit 110 from the radio base station 200a when the call processing unit 131 makes a call. . The received signal strength (RSSI), the carrier-to-interference noise ratio (CINR), or the like corresponds to the radio quality. In the following, it is assumed that RSSI is the radio quality.

  Information indicating the downlink radio quality (hereinafter, downlink radio quality information) measured by the radio quality measurement unit 133 is transmitted from the radio communication unit 110 to the radio base station 200a. Here, the downlink radio quality information may be a radio quality value or a radio quality index.

  The position measuring unit 132 measures the geographical position of the wireless terminal 100a when the wireless quality measuring unit 133 measures the downlink wireless quality. For example, the position measurement unit 132 measures the position immediately before or immediately after the downlink radio quality measurement or simultaneously with the measurement. In the following, a case where the position measurement unit 132 measures a position immediately after measurement of downlink radio quality is illustrated.

  In the present embodiment, the position measurement unit 132 and the radio quality measurement unit 133 constitute a terminal side measurement unit that measures the location of the radio terminal and the downlink radio quality. In addition, the radio communication unit 110 configures a terminal-side transmission unit that transmits position information indicating the measured position and downlink radio quality information indicating the measured downlink radio quality to the radio base station 200a.

  In the present embodiment, the non-volatile memory constituting the storage unit 140 indicates the ID of the wireless terminal 100a (hereinafter referred to as terminal ID) and the performance of the wireless terminal 100a and the terminal performance that affects the measurement accuracy of the wireless quality. Terminal performance information is stored in advance. However, in the case where the ID of the wireless terminal and the terminal performance information are stored in advance in the information collection device 300, the storage unit 140 may not store the terminal performance information in advance.

  Here, the terminal performance is at least one of the performance of the wireless terminal 100a measuring the wireless quality and the performance of the wireless terminal 100a adjusting the transmission power. Specifically, the performance for measuring the wireless quality is the measurement accuracy of the wireless quality, and depends on the performance of the wireless communication unit 110 and the performance of the control unit 130. The performance for adjusting the transmission power is the adjustment accuracy of the transmission power and depends on the performance of the wireless communication unit 110 (mainly the power amplifier) and the performance of the control unit 130.

  The call processing unit 131 acquires a terminal ID from the storage unit 140 at the time of calling. The wireless communication unit 110 transmits a call connection request including the acquired terminal ID and the telephone number of the communication partner to the wireless base station 200a.

  In addition, the call processing unit 131 acquires terminal performance information from the storage unit 140 in response to a request from the radio base station 200a. The radio communication unit 110 transmits the acquired terminal performance information to the radio base station 200a.

(1.2.2) Configuration of Radio Base Station FIG. 3 is a block diagram showing the configuration of the radio base station 200a. As illustrated in FIG. 3, the radio base station 200 a includes a radio communication unit 210, a wired communication unit 220, a control unit 230, and a storage unit 240.

  The wireless communication unit 210 is configured using, for example, an RF circuit, a BB circuit, and the like, and transmits and receives wireless signals to and from the wireless terminal 100a. The wireless communication unit 210 performs encoding and modulation of a transmission signal and demodulation and decoding of a reception signal.

  In the present embodiment, the wireless communication unit 210 receives a call connection request including the terminal ID of the wireless terminal 100a and the telephone number of the communication partner from the wireless terminal 100a. Further, the radio communication unit 210 receives position information and downlink radio quality information from the radio terminal 100a. In the present embodiment, the wireless communication unit 210 constitutes a base station side receiving unit.

  The wired communication unit 220 communicates with the information collection device 300 via the backhaul network 10. The control unit 230 is configured using a CPU, for example, and controls various functions provided in the radio base station 200a. The storage unit 240 is configured using, for example, a memory, and stores various types of information used for controlling the radio base station 200a.

  The control unit 230 includes an inquiry unit 231 and a radio quality measurement unit 232.

  When the wireless communication unit 210 receives a call connection request, the inquiry unit 231 acquires a terminal ID included in the call connection request, and uses the acquired terminal ID to determine whether the wireless terminal 100a is a reference terminal. An inquiry is made to the information collection device 300. The reference terminal means a target radio terminal that collects position information and uplink / downlink radio quality information. That is, position information and uplink / downlink radio quality information are not collected for radio terminals other than the reference terminal.

  The radio quality measurement unit 232 measures the radio quality of the uplink with the radio terminal 100a. Specifically, the radio quality measurement unit 133 measures the radio quality of a radio signal (such as a reference signal) received by the radio communication unit 210 from the radio terminal 100a when the radio terminal 100a makes a call. Information indicating the uplink radio quality measured by the radio quality measurement unit 232 (hereinafter, uplink radio quality information) is transmitted from the wired communication unit 220 to the information collection device 300. Here, the uplink radio quality information may be a radio quality value or a radio quality index.

  When the wireless terminal 100a is a reference terminal, the wired communication unit 220 includes the position information and downlink wireless quality information received by the wireless communication unit 210 from the wireless terminal 100a, and the uplink wireless quality obtained by the wireless quality measuring unit 232 Information is transmitted to the information collection device 300 via the backhaul network 10. In the present embodiment, the wired communication unit 220 constitutes a base station side transmission unit.

(1.2.3) Configuration of Information Collection Device FIG. 4 is a block diagram showing the configuration of the information collection device 300. As illustrated in FIG. 4, the information collection device 300 includes a wired communication unit 310, a control unit 320, a storage unit 330, an operation reception unit 340, and a display unit 350.

  The wired communication unit 310 communicates with the radio base station 200 a via the backhaul network 10. The wired communication unit 310 receives a reference terminal inquiry from the radio base station 200a. The wired communication unit 310 receives position information and uplink / downlink radio quality information from the radio base station 200a.

  The control unit 320 is configured using, for example, a CPU, and controls various functions included in the information collection device 300. The storage unit 330 is configured using, for example, a memory, and stores various types of information used for controlling the information collection device 300 and the like. The storage unit 330 stores a terminal ID of a wireless terminal registered as a reference terminal.

  The storage unit 330 may store the terminal performance information in advance in association with the terminal ID. For example, the terminal performance information is stored in the storage unit 330 when the wireless terminal is shipped or purchased.

  The control unit 320 includes a performance information acquisition unit 321, a registration unit 322, and a collection processing unit 323.

  The performance information acquisition unit 321 acquires terminal performance information from the storage unit 330, or acquires terminal performance information from the wireless terminal 100a via the wireless base station 200a.

  Based on the terminal performance information acquired by the performance information acquisition unit 321, the registration unit 322 registers a wireless terminal having a terminal performance equal to or higher than a required performance in the storage unit 330. The required performance means a performance such that the measurement accuracy of the radio quality becomes a specified value or more. Specifically, when the measurement accuracy of radio quality (RSSI in this embodiment) is equal to or higher than a specified value and / or when the accuracy of transmission power is equal to or higher than a specified value, the wireless terminal is used as a reference terminal. be registered.

  The collection processing unit 323 performs processing for collecting position information and uplink / downlink radio quality information. The collection processing unit 323 collects position information and uplink / downlink radio quality information only for the radio terminal registered by the registration unit 322 as a reference terminal. The location information and the uplink / downlink radio quality information collected by the collection processing unit 323 are accumulated in the storage unit 330. The storage unit 330 functions as a database that accumulates position information and uplink / downlink radio quality information.

  The registration unit 322 registers the reference terminal in the storage unit 330 and registers terminal performance information about the wireless terminal to be registered as the reference terminal in the storage unit 330. For example, the terminal performance information is registered in the storage unit 330 in association with the terminal ID of the wireless terminal registered as the reference terminal.

  The collection processing unit 323 corrects or weights the collected wireless quality information using the registered terminal performance information. For example, when a plurality of pieces of wireless quality information exist for the same position, the collection processing unit 323 uses the wireless quality information measured by using a wireless terminal with relatively low terminal performance as a wireless terminal with relatively high terminal performance. Is corrected with the measured wireless quality information. Alternatively, the weight of radio quality information measured using a radio terminal having relatively high terminal performance is increased, and the weight of radio quality information measured using a radio terminal having relatively low terminal performance is reduced. By performing such correction / weighting, the accuracy of the radio quality information can be further improved.

  The operation receiving unit 340 is configured using, for example, a keyboard and a mouse, and receives an operation from an operator. The operation includes a display operation for causing the display unit 350 to display the collected position information and uplink / downlink radio quality information. When the operation receiving unit 340 receives a display operation, the display unit 350 displays position information and uplink / downlink radio quality information. Thereby, the operator can grasp a dead zone or a weak electric field zone.

(2) Operation of Radio Communication System Next, the operation of the radio communication system 1 will be described in the order of reference terminal registration processing and information collection processing.

(2.1) Reference Terminal Registration Process FIG. 5 is a flowchart showing the reference terminal registration process. This operation flow exemplifies a case where terminal performance information is stored in advance in the wireless terminal 100a.

  In step S101, the call processing unit 131 of the wireless terminal 100a performs call processing. Here, it is assumed that the call is made for the first time after purchasing the terminal.

  In step S102, the radio communication unit 110 of the radio terminal 100a transmits a call connection request including the terminal ID of the radio terminal 100a and the telephone number of the communication partner to the radio base station 200a. The radio communication unit 210 of the radio base station 200a receives the call connection request.

  In step S103, the inquiry unit 231 of the radio base station 200a makes an inquiry to the information collection device 300 using the terminal ID included in the call connection request. The wired communication unit 310 of the information collection device 300 receives an inquiry from the radio base station 200a.

  In step S <b> 104, the control unit 320 of the information collection device 300 refers to the storage unit 330 and detects that it is the first call. When it is detected that this is the first call, the performance information acquisition unit 321 transmits a request for terminal performance information to the radio base station 200a via the wired communication unit 310 in step S105. The wired communication unit 220 of the radio base station 200a receives a request for terminal performance information.

  In step S106, the radio communication unit 210 of the radio base station 200a transmits a request for terminal performance information to the radio terminal 100a. The wireless communication unit 110 of the wireless terminal 100a receives a request for terminal performance information. When receiving the request for terminal performance information, the control unit 130 of the wireless terminal 100 a acquires the terminal performance information and the terminal ID from the storage unit 140.

  In step S107, the radio communication unit 110 of the radio terminal 100a transmits a performance information notification including the terminal performance information and the terminal ID to the radio base station 200a. The radio communication unit 210 of the radio base station 200a receives the performance information notification.

  In step S108, the wired communication unit 220 of the radio base station 200a transmits a performance information notification to the information collection device 300. The wired communication unit 310 of the information collection device 300 receives the performance information notification, and the performance information acquisition unit 321 acquires the terminal performance information and the terminal ID from the performance information notification.

  In step S109, the registration unit 322 of the information collection device 300 confirms whether the terminal performance is equal to or higher than the required performance based on the terminal performance information acquired by the performance information acquisition unit 321. When it is confirmed that the terminal performance is equal to or higher than the required performance (step S109; YES), in step S110, the registration unit 322 adds the reference terminal flag to the terminal ID acquired by the performance information acquisition unit 321 and stores it. Registered in the unit 330.

(2.2) Information Collection Process FIG. 6 is a flowchart showing the information collection process.

  In step S201, the call processing unit 131 of the wireless terminal 100a performs call processing. Here, it is assumed that the call is made for the second time or later.

  In step S202, the wireless communication unit 110 of the wireless terminal 100a transmits a call connection request including the terminal ID of the wireless terminal 100a and the telephone number of the communication partner to the wireless base station 200a. The radio communication unit 210 of the radio base station 200a receives the call connection request. Thereafter, call connection processing (so-called communication negotiation) is started between the radio terminal 100a and the radio base station 200a.

  In step S203 during the call connection process, the radio quality measurement unit 133 of the radio terminal 100a measures the downlink radio quality. Similarly, in step S204 during the call connection process, the radio quality measurement unit 232 of the radio base station 200a measures the uplink radio quality.

  In step S205, the inquiry unit 231 of the radio base station 200a makes an inquiry to the information collection device 300 using the terminal ID included in the call connection request. The wired communication unit 310 of the information collection device 300 receives an inquiry from the radio base station 200a.

  After confirming that it is not the first call, in step S206, the collection processing unit 323 of the information collection device 300 confirms whether the terminal ID included in the inquiry is registered as a reference terminal. When it is confirmed that it is registered as a reference terminal (step S206; YES), in step S207, the collection processing unit 323 sends a reference terminal notification for notifying that the inquiry-target wireless terminal is a reference terminal. The data is transmitted from 310 to the radio base station 200a. The wired communication unit 220 of the radio base station 200a receives the reference terminal notification.

  When the reference terminal notification is received, in step S208, the radio communication unit 210 of the radio base station 200a transmits a request for position information and downlink radio quality information to the radio terminal 100a. The wireless communication unit 110 of the wireless terminal 100a receives the request.

  When receiving the request, in step S209, the position measuring unit 132 of the wireless terminal 100a measures the position of the wireless terminal 100a.

  In step S210, the radio communication unit 110 of the radio terminal 100a transmits a notification of position information and downlink radio quality information to the radio base station 200a. The radio communication unit 210 of the radio base station 200a receives the notification.

  In step S211, the wired communication unit 220 of the radio base station 200a includes the position information and the downlink radio quality information received from the radio base station 200a, and the uplink radio quality information obtained by the radio quality measurement unit 232. Is transmitted to the information collecting apparatus 300. The wired communication unit 310 of the information collection device 300 receives the notification.

  In step S212, the collection processing unit 323 of the information collection device 300 corrects or weights the position information and the uplink / downlink radio quality information included in the notification received from the radio base station 200a, and stores them in the storage unit 330.

  As described above, the radio terminal 100a measures the downlink radio quality in the process of the call connection process executed with the outgoing call. The radio base station 200a measures the uplink radio quality during the call connection process.

(3) Effect of Embodiment As described above, the radio quality of each of the downlink and the uplink is measured at the time of calling (specifically, in the process of call connection processing). For this reason, it is possible to avoid the measurement of the wireless quality under a situation where the wireless terminal is trapped in the bag, and it is ensured that the wireless quality is measured under ideal measurement conditions. In addition, even when radio terminals with high and low terminal performance are mixed, radio quality measurement accuracy is guaranteed by collecting radio quality information only for radio terminals whose terminal performance exceeds the required level. And accurate radio quality information can be collected.

(4) Other Embodiments As described above, the present invention has been described according to the embodiment. However, it should not be understood that the description and drawings constituting a part of this disclosure limit the present invention. From this disclosure, various alternative embodiments, examples and operational techniques will be apparent to those skilled in the art.

  For example, in the above-described embodiment, the radio communication system 1 based on LTE Release 9 or LTE-Advanced has been described. However, the present invention can be applied to other radio communication systems such as a radio communication system based on the WiMAX standard (IEEE 802.16). The present invention is applicable.

  Thus, it should be understood that the present invention includes various embodiments and the like not described herein. Therefore, the present invention is limited only by the invention specifying matters in the scope of claims reasonable from this disclosure.

  DESCRIPTION OF SYMBOLS 1 ... Wireless communication system, 10 ... Backhaul network, 100a-100h ... Wireless terminal, 110 ... Wireless communication part, 120 ... GPS receiver, 130 ... Control part, 131 ... Call processing part, 132 ... Position measurement part, 133 ... wireless quality measurement unit, 140 ... storage unit, 150 ... operation reception unit, 160 ... microphone, 170 ... speaker, 180 ... display unit, 190 ... battery, 200a-200c ... wireless base station, 210 ... wireless communication unit, 220 ... Wired communication unit, 230 ... control unit, 231 ... inquiry unit, 232 ... wireless quality measurement unit, 240 ... storage unit, 300 ... information collection device, 310 ... wired communication unit, 320 ... control unit, 321 ... performance information acquisition unit, 322: Registration unit, 323: Collection processing unit, 330: Storage unit, 340: Operation receiving unit, 350: Display unit

Claims (5)

An information collection device for collecting position information indicating a position of a wireless terminal and wireless quality information indicating a measurement result of wireless quality at the position,
A performance information acquisition unit that acquires terminal performance information indicating the terminal performance that is the performance of the wireless terminal and affects the measurement accuracy of the wireless quality;
Based on the terminal performance information acquired by the performance information acquisition unit, a registration unit for registering a wireless terminal whose terminal performance is equal to or higher than a required performance;
An information collection apparatus comprising: a collection processing unit that collects the wireless quality information only for wireless terminals registered by the registration unit.   The information collection device according to claim 1, wherein the terminal performance is at least one of a performance at which the wireless terminal measures wireless quality and a performance at which the wireless terminal adjusts transmission power. The registration unit registers a wireless terminal having the terminal performance equal to or higher than the required performance, registers the terminal performance information about the wireless terminal to be registered,
The information collection device according to claim 1, wherein the collection processing unit corrects or weights the collected wireless quality information using the registered terminal performance information.   The information collection device according to any one of claims 1 to 3, wherein the wireless quality information collected by the collection processing unit indicates wireless quality at the time of a call of a wireless terminal registered by the registration unit. An information collection method for collecting position information indicating a position of a wireless terminal and wireless quality information indicating a measurement result of wireless quality at the position,
An information collecting device acquiring terminal performance information indicating terminal performance which is the performance of the wireless terminal and affects measurement accuracy of wireless quality;
The information collecting device, based on the acquired terminal performance information, registering a wireless terminal having the terminal performance equal to or higher than a required performance;
A method of collecting the wireless quality information only for the registered wireless terminal.

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