JP5635864B2 - Terminal selection method and network device - Google Patents

Description

  The present invention relates to a terminal selection method, a wireless terminal, and a network device for selecting a wireless terminal to be used for MDT.

  In a mobile communication system, when a building is constructed around a radio base station or the installation status of the base stations around the radio base station changes, the radio environment related to the radio base station changes. For this reason, conventionally, a drive test in which a measurement vehicle equipped with measurement equipment is used by an operator to measure a wireless environment and collect measurement results and position information is performed.

  Such measurement and collection can contribute to optimization of the coverage of a radio base station, for example, but there are problems that the number of man-hours and the cost are high. Therefore, 3GPP (3rd Generation Partnership Project), a standardization project for mobile communication systems, formulates specifications for MDT (Minimization of Drive Test), a technology that automates measurement and collection using wireless terminals owned by users. (See Non-Patent Documents 1 and 2).

  As a kind of MDT, there is a recording type MDT (hereinafter referred to as “Logged MDT” as appropriate). In the Logged MDT, an idle wireless terminal measures a wireless environment according to measurement parameters set from the network, records the measurement result as MDT data together with position information and time information, and records the recorded MDT data to the network later. To report.

3GPP TR 36.805 V9.0.0 “Study on Minimization of drive-tests in Next Generation Networks”, 2009-12 3GPP TS 37.320 v0.7.0, “Radio measurement collection for Minimization of Drive Tests (MDT)”, 2010-07

  As a terminal selection method for selecting a wireless terminal to be used for MDT, a network device (for example, a maintenance monitoring device or a wireless base station) acquires information indicating the capability of the wireless terminal, and based on the information indicating the capability. It is assumed that it is determined whether to use the wireless terminal for MDT. However, in this method, there is a possibility that a high-capacity wireless terminal may be repeatedly used for MDT, and the load of MDT is concentrated on the wireless terminal, so that the fairness is not guaranteed and the user is dissatisfied. There is.

  Therefore, an object of the present invention is to provide a terminal selection method, a wireless terminal, and a network device that can reduce the possibility that the MDT load is concentrated on a specific wireless terminal.

  In order to solve the above-described problems, the present invention has the following features. First, the feature of the terminal selection method according to the present invention relates to a step in which a wireless terminal (wireless terminal UE) performs MDT processing, which is processing according to MDT, and a time or period in which the wireless terminal performs the MDT processing. Transmitting MDT time information from the wireless terminal to the network (maintenance monitoring device OAM and / or wireless base station eNB), and the network, based on the MDT time information from the wireless terminal, And a step of determining whether to use for MDT.

  According to such a feature, the radio immediately after being used for MDT is determined by determining whether or not to use the radio terminal for MDT based on MDT time information related to the time or period when the radio terminal performs MDT processing. A terminal or a wireless terminal that has performed MDT for a long time can be determined not to be used for MDT. Therefore, the possibility that the MDT load is concentrated on a specific wireless terminal can be reduced.

  Another feature of the terminal selection method according to the present invention is that, in the terminal selection method according to the above feature, a predetermined message (UE MDT_Information Request message or MDT Configuration Negotiation message) for acquiring the MDT time information is sent from the network. The method further includes the step of transmitting to the wireless terminal, and the step of transmitting the MDT time information includes transmitting the MDT time information in response to the predetermined message from the network.

  Another feature of the terminal selection method according to the present invention is that, in the terminal selection method according to the above feature, the step of performing the MDT processing is set by a measurement configuration message (MDT Configuration message) received by the wireless terminal from the network. And a step of recording MDT data including a measurement result of a wireless environment according to the measured measurement parameter, and a step of transmitting the MDT data recorded in the recording step from the wireless terminal to the network. To do.

  Another feature of the terminal selection method according to the present invention is that, in the terminal selection method according to the above feature, in the step of transmitting the MDT time information, information indicating a time at which the MDT data is transmitted in the step of transmitting the MDT data. The gist is to transmit as the MDT time information.

  Another feature of the terminal selection method according to the present invention is that, in the terminal selection method according to the above feature, in the determining step, a time difference between the time indicated by the MDT time information from the wireless terminal and the current time is calculated. The gist is to determine not to use the wireless terminal for MDT when it is less than the predetermined time.

  Another feature of the terminal selection method according to the present invention is that, in the terminal selection method according to the above feature, in the step of transmitting the MDT time information, information regarding a period during which the wireless terminal holds MDT data is used as the MDT time information. The gist is to transmit to the network.

  In another aspect of the terminal selection method according to the present invention, in the terminal selection method according to the above feature, the measurement parameter includes a measurement period in which the wireless terminal should perform measurement, and the step of transmitting the MDT time information includes: The gist is to transmit information indicating the measurement period as the MDT time information.

  The wireless terminal according to the present invention is characterized by the MDT processing unit (MDT processing unit 261) that performs MDT processing, which is processing according to MDT, and the MDT processing in order for the network to determine the wireless terminal used for MDT. The gist of the present invention is to include a transmission unit (wireless communication unit 210, MDT information management unit 262) that transmits MDT time information related to the time or period of time to the network.

  The network device according to the present invention is a network device (maintenance monitoring device OAM or radio base station eNB) provided in the network, and the time or period when the radio terminal performs MDT processing, which is processing according to MDT An acquisition unit (information acquisition unit 331 or information acquisition unit 141) that acquires MDT time information regarding, and a determination unit (MDT use terminal) that determines whether to use the wireless terminal for MDT based on the MDT time information The gist is to include a determination unit 332 or an MDT use terminal determination unit 142).

  ADVANTAGE OF THE INVENTION According to this invention, the terminal selection method, radio | wireless terminal, and network apparatus which can reduce possibility that the load of MDT concentrates on a specific radio | wireless terminal can be provided.

It is a figure which shows the whole schematic structure of the mobile communication system which concerns on 1st Embodiment and 2nd Embodiment. It is a block diagram which shows the structure of the radio | wireless terminal which concerns on 1st Embodiment. It is a block diagram which shows the structure of the maintenance monitoring apparatus which concerns on 1st Embodiment. It is a sequence diagram which shows the specific example of Logged MDT which concerns on 1st Embodiment. It is a sequence diagram which shows the terminal selection method which concerns on 1st Embodiment. It is a sequence diagram which shows the terminal selection method which concerns on the example 1 of a change of 1st Embodiment. It is a sequence diagram which shows the terminal selection method which concerns on the modification 2 of 1st Embodiment. It is a block diagram which shows the structure of the wireless base station which concerns on 2nd Embodiment. It is a sequence diagram which shows the terminal selection method which concerns on 2nd Embodiment. It is a sequence diagram which shows the terminal selection method which concerns on the example 1 of a change of 2nd Embodiment. It is a sequence diagram which shows the terminal selection method which concerns on the modification 2 of 2nd Embodiment. It is a sequence diagram which shows the terminal selection method which concerns on the modification 3 of 2nd Embodiment.

  A first embodiment, a second embodiment, and other embodiments of the present invention will be described with reference to the drawings. In the drawings in the following embodiments, the same or similar parts are denoted by the same or similar reference numerals.

  In the following description, a mobile communication system configured based on LTE (Long Term Evolution) -Advanced, for which specifications have been formulated in 3GPP, will be mainly described, but configured based on W-CDMA (Wideband Code Division Multiple Access). It should be noted that the present invention can also be applied to a mobile communication system.

(1) 1st Embodiment The terminal selection method which concerns on 1st Embodiment is related with the time or period when the radio | wireless terminal UE performed the MDT process which is a process according to MDT, and the radio | wireless terminal UE performed the MDT process. A step of transmitting MDT time information from the radio terminal UE to the network, and a step of determining whether or not the maintenance monitoring apparatus OAM uses the radio terminal UE for MDT based on the MDT time information from the radio terminal UE. With.

  Hereinafter, for the first embodiment, (1.1) overall schematic configuration of mobile communication system, (1.2) configuration of wireless terminal, (1.3) configuration of maintenance monitoring device, (1.4) mobile communication system (1.5) Effects of the first embodiment, (1.6) Modification 1 of the first embodiment, (1.7) Modification 2 of the first embodiment will be described in this order.

(1.1) Overall Schematic Configuration of Mobile Communication System FIG. 1 is a diagram illustrating an overall schematic configuration of a mobile communication system 1 according to the first embodiment.

  As shown in FIG. 1, a mobile communication system 1 includes a radio terminal UE (User Equipment), a plurality of radio base stations eNB (evolved Node-B), a maintenance monitoring device OAM (Operation and Maintenance), and a plurality of mobility management devices MME. (Mobility Management Entity) / Gateway device S-GW (Serving Gateway).

  The plurality of radio base stations eNB constitutes an E-UTRAN (Evolved-UMTS Terrestrial Radio Access Network) that is a radio access network. Each of the plurality of radio base stations eNB forms a cell that is a communication area that should provide a service to the radio terminal UE.

  The radio terminal UE is a radio communication device possessed by a user and is also referred to as a user device. The configuration of the radio terminal UE will be described later.

  Each adjacent radio base station eNB can communicate with each other via an X2 interface which is a logical communication path providing inter-base station communication. Each of the plurality of radio base stations eNB can communicate with EPC (Evolved Packet Core), specifically, MME (Mobility Management Entity) / S-GW (Serving Gateway) via the S1 interface. Each radio base station eNB can communicate with a maintenance monitoring device OAM operated by an operator. The configuration of the maintenance monitoring device OAM will be described later. The E-UTRAN (radio base station eNB) and the maintenance monitoring device OAM are collectively referred to as “network” as appropriate.

  The mobile communication system 1 supports MDT (specifically, Logged MDT). In Logged MDT, a wireless terminal in an idle state (that is, waiting) measures a wireless environment according to measurement parameters set from the network, records the measurement result as MDT data together with position information and time information, and records the MDT data. Is stored for later reporting to the network. In the current specification, it is defined that the Logged MDT is executed by the idle radio terminal UE.

(1.2) Configuration of Radio Terminal FIG. 2 is a block diagram showing a configuration of the radio terminal UE according to the first embodiment.

  As illustrated in FIG. 2, the radio terminal UE includes an antenna 201, a radio communication unit 210, a user interface unit 220, a GPS receiver 230, a battery 240, a storage unit 250, and a control unit 260. However, the radio terminal UE may not have the GPS receiver 230.

  The antenna 201 is used for transmission / reception of radio signals. The wireless communication unit 210 is configured using, for example, a radio frequency (RF) circuit, a baseband (BB) circuit, and the like, and transmits and receives a wireless signal via the antenna 201. The wireless communication unit 210 also modulates the transmission signal and demodulates the reception signal. The user interface unit 220 is a display, a button, or the like that functions as an interface with the user. The battery 240 stores electric power supplied to each block of the radio terminal UE. The storage unit 250 is configured using, for example, a memory, and stores various types of information used for controlling the radio terminal UE and the like. The control unit 260 is configured using, for example, a CPU, and controls various functions provided in the radio terminal UE.

  The control unit 260 includes an MDT processing unit 261 and an MDT information management unit 262.

  The MDT processing unit 261 performs MDT processing that is processing according to MDT. Specifically, when the wireless communication unit 210 receives an MDT Configuration message including an MDT measurement parameter in the Logged MDT, the MDT processing unit 261 sets the measurement parameter included in the MDT Configuration message in its own terminal. The wireless environment is measured according to the set measurement parameters, and the MDT data including the measurement result, the position information, and the time information is recorded. After the transition from the idle state to the connected state, the MDT processing unit 261 controls to transmit the held MDT data in response to a request from the network.

  In the Logged MDT, the measurement parameters are the measurement target (measurements to be logged), measurement trigger (triggering of logging event), measurement period (total duration of logging), absolute time (network absolute time stamp), and measurement area. (Measurements area). However, the measurement area may not be included in the measurement parameter. The measurement target is, for example, a frequency band to be measured, and the MDT processing unit 261 measures the reference signal reception power (RSRP) and the reference signal reception quality (RSRQ) for the measurement target frequency band. The measurement trigger is, for example, a periodic downlink pilot signal strength measurement trigger, and the measurement interval can be set in this region. The radio terminal UE performs measurement when the timer corresponding to the set measurement interval expires. The location information includes an ECGI (E-UTRAN Cell Global Identifier) of the serving cell. When the radio terminal UE has a positioning function, the location information further includes GNSS (Global Navigation Satellite System) location information. On the other hand, when the radio terminal UE does not have a positioning function, the location information further includes an RF (Radio frequency) fingerprint related to a reception state from a neighboring cell.

  The MDT information management unit 262 manages MDT time information related to the time or period when the terminal performs the MDT process. Specifically, the MDT information management unit 262 manages at least one of the following information 1 to information 3.

  (Information 1) Information indicating the time when the MDT data is transmitted to the network. The information indicates the time when the MDT processing unit 261 transmits the MDT data held in the Logged MDT to the network. In addition, when the MDT processing unit 261 transmits MDT data to the network a plurality of times, the information indicates the time when the MDT processing unit 261 last transmitted the MDT data to the network.

  (Information 2) Information relating to a period during which MDT data is held. The information indicates a period from when the MDT processing unit 261 records MDT data (also referred to as logging) to transmitting the MDT data to the network (that is, a period during which the MDT data is retained) in the Logged MDT. . The information may be configured by a combination of information indicating the time when the MDT data is recorded and information indicating the time when the MDT data is transmitted to the network. Or the said information may be comprised by the combination of the information which shows the time when the measurement period which is one of the measurement parameters has expired, and the information which shows the time which transmitted MDT data to the network.

  (Information 3) Information indicating the measurement period. The information indicates a measurement period that is one of measurement parameters in the Logged MDT by the MDT processing unit 261.

  When the wireless communication unit 210 receives a UE MDT_Information Request message requesting transmission of MDT time information, the MDT information management unit 262 includes UE MDT_Information Report including the managed MDT time information and a terminal identifier for identifying the terminal itself. Control to send a message. In 1st Embodiment, the MDT information management part 262 and the radio | wireless communication part 210 transmit the MDT time information regarding the time or period which performed the MDT process in order for a network to determine the radio | wireless terminal UE used for MDT to a network. Configure the transmitter.

(1.3) Configuration of Maintenance Monitoring Device FIG. 3 is a block diagram showing the configuration of the maintenance monitoring device OAM according to the first embodiment.

  As illustrated in FIG. 3, the maintenance monitoring device OAM includes a network communication unit 310, a storage unit 320, and a control unit 330.

  The network communication unit 310 performs communication with the radio base station eNB. The storage unit 320 is configured using, for example, a memory, and stores various types of information used for controlling the maintenance monitoring device OAM. The control unit 330 is configured using, for example, a CPU, and controls various functions provided in the maintenance monitoring device OAM.

  The control unit 330 includes an information acquisition unit 331, an MDT use terminal determination unit 332, and an MDT control unit 333.

  When the start of MDT is determined, the information acquisition unit 331 controls to transmit a UE MDT_Information Request message requesting transmission of MDT time information to the radio base station eNB. When the network communication unit 310 receives the UE MDT_Information Report message after transmitting the UE MDT_Information Request message, the information acquisition unit 331 acquires MDT time information and a terminal identifier included in the received UE MDT_Information Report message.

  Based on the MDT time information acquired by the information acquisition unit 331, the MDT using terminal determination unit 332 determines whether to use the radio terminal UE that is the transmission source of the UE MDT_Information Report message, which is indicated by the terminal identifier, for MDT. To do.

  The MDT using terminal determining unit 332 is a case where the MDT time information is information indicating the time when the MDT data is transmitted to the network (that is, information 1), and the time indicated by the MDT time information (MDT data transmission time) When the time difference between the current time and the current time is less than the predetermined time, it is determined that the radio terminal UE is not used for MDT. Thus, the MDT using terminal determining unit 332 determines that the radio terminal UE immediately after being used for the previous MDT is not used for the current MDT. On the other hand, when the time difference between the time indicated by the MDT time information (that is, the MDT data transmission time) and the current time is equal to or greater than a predetermined time, the MDT use terminal determination unit 332 uses the radio terminal UE for MDT. decide.

  The MDT use terminal determination unit 332 is a case where the MDT time information is information (that is, information 2) related to the period in which the MDT data is held and the period in which the MDT data is held is a predetermined time or more It decides not to use the radio terminal UE for MDT. Thus, the MDT using terminal determining unit 332 determines that the wireless terminal UE for which the previous MDT has been used for a long time is not used for the current MDT. On the other hand, the MDT using terminal determining unit 332 determines that the wireless terminal UE is used for MDT when the period of holding the MDT data is less than a predetermined time.

  Further, when the MDT time information is information indicating the measurement period (that is, information 3) and the measurement period is equal to or longer than the predetermined time, the MDT using terminal determination unit 332 determines that the radio terminal UE is Decide not to use for MDT. Thus, the MDT using terminal determining unit 332 determines that the wireless terminal UE for which the previous MDT has been used for a long time is not used for the current MDT. On the other hand, when the measurement period is less than the predetermined time, the MDT using terminal determining unit 332 determines to use the wireless terminal UE for MDT.

  Note that the MDT use terminal determination unit 332 is not limited to the case where the information 1 to 3 is individually used as a criterion for determining whether or not the MDT can be used, and the information 1 to 3 may be used in combination. For example, when the determination based on the information 1 is OK (MDT can be used) and the determination based on the information 2 or the determination based on the information 3 is OK, the MDT using terminal determination unit 332 It may be determined that the radio terminal UE is used for MDT. Moreover, even if at least one of the determination based on the information 2 or the determination based on the information 3 is OK, the MDT using terminal determination unit 332 determines that the determination based on the information 1 is NG (MDT use is not possible). It may be determined that the radio terminal UE is not used for MDT.

  The MDT control unit 333 specifies a measurement parameter for the radio base station eNB to which the radio terminal UE determined to be used for MDT is connected (that is, the radio base station eNB that transferred the UE MDT_Information Report message), Send a send request. The transmission request includes the terminal identifier. Further, when MDT data (measurement results and position information) is reported from the radio terminal UE via the radio base station eNB, the MDT control unit 333 accumulates the reported MDT data. The accumulated MDT data is used, for example, for optimization of E-UTRAN.

(1.4) Operation of Mobile Communication System Next, (1.4.1) Specific example of Logged MDT, (1.4.2) Terminal selection method according to the first embodiment will be described.

(1.4.1) Specific Example of Logged MDT FIG. 4 is a sequence diagram illustrating a specific example of Logged MDT. In the initial state of FIG. 4, it is assumed that the radio terminal UE is in a connected state and is performing radio communication with the radio base station eNB.

  As shown in FIG. 4, in step S11, the maintenance monitoring apparatus OAM refers to the information of the mobility management apparatus MME, selects a radio terminal UE to be used for MDT, and sets measurement parameters to the selected radio terminal UE. To decide. And the maintenance monitoring apparatus OAM transmits the information of the selected radio | wireless terminal UE and the information of the determined measurement parameter to the radio base station eNB (configuration instruction | indication S11 in FIG. 4).

  In step S12, the radio base station eNB generates an MDT Configuration message for setting measurement parameters according to the information received from the maintenance monitoring apparatus OAM, and transmits the generated MDT Configuration message to the radio terminal UE. When receiving the MDT Configuration message, the radio terminal UE sets the measurement parameter included in the received MDT Configuration message in its own terminal. In addition, the radio terminal UE starts a measurement period timer when setting measurement parameters.

  In step S13, the radio terminal UE shifts from the connected state to the idle state.

  In step S14, the radio terminal UE measures the radio environment according to the set measurement parameter, and records MDT data including the measurement result.

  In step S15, when the measurement period timer expires, the radio terminal UE ends logging (measurement and recording).

  In step S16, the radio terminal UE performs a connection process with the radio base station eNB. Note that the radio base station eNB to which the radio terminal UE is connected is likely to be different from the radio base station eNB that is the transmission source of the MDT Configuration message.

  In step S17, the radio terminal UE shifts from the idle state to the connected state.

  In step S18, the radio terminal UE transmits an RRCConnectionSetupComplete message indicating that the transition from the idle state to the connected state is completed to the radio base station eNB. At that time, the radio terminal UE transmits holding information indicating that the MDT data is held in the RRCConnectionSetupComplete message.

  When receiving the RRCConnectionSetupComplete message including the holding information from the radio terminal UE, the radio base station eNB transmits information indicating that the radio terminal UE holds the MDT data to the maintenance monitoring apparatus OAM in Step S19. The maintenance monitoring device OAM determines whether to collect MDT data held by the radio terminal UE.

  When the maintenance monitoring apparatus OAM determines to collect the MDT data held by the radio terminal UE, in step S20, the maintenance monitoring apparatus OAM gives information indicating that the MDT data held by the radio terminal UE is collected. It transmits to the radio base station eNB.

  When receiving information from the maintenance monitoring apparatus OAM that instructs the radio base station eNB to collect MDT data held by the radio terminal UE, in step S21, the radio base station eNB generates a UEInformationRequest message, and the generated UEInformationRequest message is transmitted to the radio terminal. Send to UE.

  When receiving the UEInformationRequest message from the radio base station eNB, the radio terminal UE acquires the retained MDT data in Step S22, generates a UEInformationResponse message including the acquired MDT data, and transmits the generated UEInformationResponse message to the radio base station. Send to eNB. When the MDT data is reported to the network in this way, the radio terminal UE deletes the held MDT data.

  When receiving the UEInformationResponse message from the radio terminal UE, the radio base station eNB acquires MDT data included in the received UEInformationResponse message in step S23, and transmits the acquired MDT data to the maintenance monitoring device OAM.

(1.4.2) Terminal Selection Method According to First Embodiment FIG. 5 is a sequence diagram showing a terminal selection method according to the first embodiment.

  As shown in FIG. 5, when it is determined in step S101 that the maintenance monitoring apparatus OAM starts MDT, the UE MDT_Information Request message for requesting transmission of MDT time information is transmitted to at least one of the E-UTRAN. To one radio base station eNB. The radio base station eNB receives the UE MDT_Information Request message.

  In step S102, the radio base station eNB transmits a UE MDT_Information Request message requesting transmission of MDT time information to the radio terminal UE connected to the own station. The radio terminal UE receives a UE MDT_Information Request message.

  In step S103, the radio terminal UE transmits a UE MDT_Information Report message including MDT time information and a terminal identifier for identifying the terminal itself to the radio base station eNB. Here, the MDT time information is at least one of information 1 (information indicating the time when the MDT data is transmitted to the network), information 2 (information regarding the period during which the MDT data is held), and information 3 (information indicating the measurement period). One. The radio base station eNB receives the UE MDT_Information Report message.

  In step S104, the radio base station eNB transfers the UE MDT_Information Report message received from the radio terminal UE to the maintenance monitoring apparatus OAM. The maintenance monitoring device OAM receives the UE MDT_Information Report message.

  In step S105, the maintenance monitoring apparatus OAM acquires the MDT time information and the terminal identifier included in the received UE MDT_Information Report message, and transmits the UE MDT_Information Report message indicated by the terminal identifier based on the acquired MDT time information. It is determined whether to use the original radio terminal UE for MDT.

  Here, the maintenance monitoring device OAM is a case where the MDT time information is information indicating the time when the MDT data is transmitted to the network (that is, information 1), and the time indicated by the MDT time information (MDT data transmission time) ) And the current time is less than a predetermined time, it is determined that the radio terminal UE is not used for MDT. As described above, the maintenance monitoring apparatus OAM determines that the radio terminal UE immediately after being used for the previous MDT is not used for the current MDT.

  When the MDT time information is information relating to a period during which MDT data is held (that is, information 2) and the period during which the MDT data is held is equal to or longer than a predetermined time, the maintenance monitoring apparatus OAM It decides not to use the UE for MDT. As described above, the maintenance monitoring apparatus OAM determines that the wireless terminal UE for which the previous MDT has been used for a long time is not used for the current MDT.

  Further, the maintenance monitoring device OAM changes the radio terminal UE to MDT when the MDT time information is information indicating the measurement period (that is, information 3) and the measurement period is equal to or longer than a predetermined time. Decide not to use. As described above, the maintenance monitoring apparatus OAM determines that the wireless terminal UE for which the previous MDT has been used for a long time is not used for the current MDT.

  In addition, as described above, the maintenance monitoring apparatus OAM is not limited to the case where the information 1 to 3 is individually used as a criterion for determining whether or not the MDT can be used, and the information 1 to 3 may be used in combination.

  When it is determined that the radio terminal UE is used for MDT, in step S106, the maintenance monitoring apparatus OAM transmits an MDT Configuration message transmission instruction (configuration instruction in FIG. 5) to the radio base station eNB that has transferred the UE MDT_Information Report message. S106) is transmitted. The transmission instruction includes the terminal identifier and the measurement parameter. The radio base station eNB receives the transmission instruction of the MDT Configuration message.

  In step S107, the radio base station eNB transmits an MDT Configuration message to the radio terminal UE in accordance with the received transmission instruction. When receiving the MDT Configuration message, the radio terminal UE sets the measurement parameter included in the MDT Configuration message in the terminal, and starts the MDT process.

(1.5) Effects of the First Embodiment As described above, according to the first embodiment, the maintenance monitoring apparatus OAM is based on MDT time information related to the time or period when the radio terminal UE performs the MDT process. It is determined whether or not the radio terminal UE is used for MDT. Thereby, it is possible to determine not to use the current MDT for the radio terminal UE immediately after being used for the previous MDT or for the radio terminal UE that has performed MDT for a long time. Therefore, it is possible to reduce the possibility that the MDT load is concentrated on a specific radio terminal UE.

(1.6) Modification 1 of the first embodiment
In the first embodiment described above, the maintenance monitoring device OAM and the radio base station eNB transmit a UE MDT_Information Request message requesting transmission of MDT time information to the radio terminal UE, and the radio terminal UE receives the UE MDT_Information Request message. In response to the UE MDT_Information Report message to the radio base station eNB. However, the radio terminal UE may transmit the UE MDT_Information Report message to the radio base station eNB in the process of negotiation prior to transmission of the MDT Configuration message.

  FIG. 6 is a sequence diagram illustrating a terminal selection method according to this modification.

  As shown in FIG. 6, in step S201, when the maintenance monitoring apparatus OAM determines to set the measurement parameter in the radio terminal UE, the maintenance monitoring apparatus OAM transmits an MDT Configuration Negotiation message (predetermined message) for performing negotiation with the radio terminal UE. It transmits to the base station eNB. The radio base station eNB receives the MDT Configuration Negotiation message.

  In step S202, the radio base station eNB transmits an MDT Configuration Negotiation message to the radio terminal UE. The radio terminal UE receives the MDT Configuration Negotiation message.

  In step S203, the radio terminal UE transmits a UE MDT_Information Report message including MDT time information and a terminal identifier for identifying the terminal itself to the radio base station eNB. The radio base station eNB receives the UE MDT_Information Report message. The subsequent processing is the same as in the first embodiment.

(1.7) Modification 2 of the first embodiment
Although 1st Embodiment mentioned above demonstrated the case where a network receives UE MDT_Information Report message from one radio | wireless terminal UE, you may receive UE MDT_Information Report message simultaneously from several radio | wireless terminal UE.

  FIG. 7 is a sequence diagram showing a terminal selection method according to this modification.

  As shown in FIG. 7, in step S301, when the start of MDT is determined, the maintenance monitoring apparatus OAM sends a UE MDT_Information Request message for requesting transmission of MDT time information to a plurality of radio bases constituting the E-UTRAN. To the station eNB. Each of the multiple radio base stations eNB receives the UE MDT_Information Request message.

  In step S302, each of the plurality of radio base stations eNB transmits a UE MDT_Information Request message requesting transmission of MDT time information to the radio terminal UE connected to the own station. Each of the plurality of radio terminals UE receives a UE MDT_Information Request message.

  In Step S303, each of the plurality of radio terminals UE transmits a UE MDT_Information Report message including MDT time information managed by the own terminal and a terminal identifier for identifying the own terminal to the radio base station eNB. Each of the multiple radio base stations eNB receives the UE MDT_Information Report message.

  In step S304, each of the plurality of radio base stations eNB transfers the UE MDT_Information Report message received from the radio terminal UE to the maintenance monitoring apparatus OAM. The maintenance monitoring device OAM receives the UE MDT_Information Report message.

  In step S305, the maintenance monitoring apparatus OAM acquires the MDT time information and the terminal identifier included in each of the received UE MDT_Information Report messages, and the UE MDT_Information Report message indicated by the terminal identifier based on the acquired MDT time information. It is determined whether or not to use the wireless terminal UE of the transmission source for MDT. Here, in addition to the method described in the first embodiment, the radio terminal UE to be used for MDT may be determined by relative comparison of a plurality of radio terminals UE.

  In step S306, the maintenance monitoring apparatus OAM issues a transmission instruction for the MDT Configuration message (configuration instruction S306 in FIG. 7) to the radio base station eNB that has transferred the UE MDT_Information Report message corresponding to the radio terminal UE used for MDT. Send. The transmission instruction includes a terminal identifier of the radio terminal UE used for MDT and a measurement parameter. The radio base station eNB receives the transmission instruction of the MDT Configuration message.

  In step S307, the radio base station eNB transmits an MDT Configuration message to the radio terminal UE according to the received transmission instruction. When receiving the MDT Configuration message, the radio terminal UE sets the measurement parameter included in the MDT Configuration message in the terminal, and starts the MDT process.

(2) Second Embodiment In the first embodiment described above, the maintenance monitoring device OAM has selected the radio terminal UE used for MDT. However, in the second embodiment, the radio terminal UE used for MDT is a radio base station. The station eNB selects. That is, in the terminal selection method according to the second embodiment, the radio terminal UE performs MDT processing, which is processing according to MDT, and MDT time information related to the time or period when the radio terminal UE performs MDT processing. Transmitting from the radio terminal UE to the network, and the radio base station eNB determining whether to use the radio terminal UE for MDT based on the MDT time information from the radio terminal UE.

  Hereinafter, for the second embodiment, (2.1) the configuration of the radio base station, (2.2) the terminal selection method according to the second embodiment, (2.3) the effects of the second embodiment, (2.4 ) Modification example 1 of the second embodiment, (2.5) Modification example 2 of the second embodiment, and (2.6) Modification example 3 of the second embodiment will be described in this order. Note that differences from the first embodiment will be mainly described, and redundant description will be omitted.

(2.1) Configuration of Radio Base Station FIG. 8 is a block diagram showing a configuration of the radio base station eNB according to the second embodiment.

  As illustrated in FIG. 8, the radio base station eNB includes an antenna 101, a radio communication unit 110, a network communication unit 120, a storage unit 130, and a control unit 140.

  The antenna 101 is used for transmission / reception of a radio signal. The wireless communication unit 110 is configured using, for example, a radio frequency (RF) circuit, a baseband (BB) circuit, and the like, and transmits and receives wireless signals via the antenna 101. The wireless communication unit 110 also modulates the transmission signal and demodulates the reception signal. The network communication unit 120 communicates with other network devices (such as the maintenance monitoring device OAM and other radio base stations eNB). The storage unit 130 is configured using, for example, a memory, and stores various types of information used for controlling the radio base station eNB. The control unit 140 is configured using, for example, a CPU, and controls various functions provided in the radio base station eNB.

  The control unit 140 includes an information acquisition unit 141, an MDT use terminal determination unit 142, and an MDT control unit 143.

  When the start of MDT is determined, the information acquisition unit 141 controls to transmit a UE MDT_Information Request message requesting transmission of MDT time information to the radio terminal UE connected to the own station. When the radio communication unit 110 receives the UE MDT_Information Report message after transmitting the UE MDT_Information Request message, the information acquisition unit 141 acquires the MDT time information and the terminal identifier included in the received UE MDT_Information Report message.

  Based on the MDT time information acquired by the information acquisition unit 141, the MDT using terminal determination unit 142 determines whether to use the radio terminal UE indicated by the terminal identifier for MDT.

  The MDT using terminal determining unit 142 is a case where the MDT time information is information indicating the time when the MDT data is transmitted to the network (that is, information 1), and the time indicated by the MDT time information (MDT data transmission time) When the time difference between the current time and the current time is less than the predetermined time, it is determined that the radio terminal UE is not used for MDT. Thus, the MDT using terminal determining unit 142 determines that the radio terminal UE immediately after being used for the previous MDT is not used for the current MDT. On the other hand, when the time difference between the time indicated by the MDT time information (that is, the MDT data transmission time) and the current time is equal to or greater than a predetermined time, the MDT using terminal determining unit 142 uses the radio terminal UE for MDT. decide.

  When the MDT time information is information related to the period in which the MDT data is retained (that is, information 2) and the period in which the MDT data is retained is equal to or longer than a predetermined time, the MDT use terminal determination unit 142 It decides not to use the radio terminal UE for MDT. Thus, the MDT using terminal determining unit 142 determines that the wireless terminal UE for which the previous MDT has been used for a long time is not used for the current MDT. On the other hand, the MDT using terminal determining unit 142 determines that the wireless terminal UE is used for MDT when the period of holding the MDT data is less than a predetermined time.

  Furthermore, when the MDT time information is information indicating the measurement period (that is, information 3) and the measurement period is equal to or longer than the predetermined time, the MDT using terminal determination unit 142 determines that the radio terminal UE is Decide not to use for MDT. Thus, the MDT using terminal determining unit 142 determines that the wireless terminal UE for which the previous MDT has been used for a long time is not used for the current MDT. On the other hand, when the measurement period is less than the predetermined time, the MDT using terminal determining unit 142 determines to use the wireless terminal UE for MDT.

  Note that the MDT use terminal determination unit 142 is not limited to the case where the information 1 to 3 is individually used as a criterion for determining whether or not the MDT can be used, and may use the information 1 to 3 in combination. For example, if the determination based on the information 1 is OK (MDT can be used) and the determination based on the information 2 or the determination based on the information 3 is OK, the MDT use terminal determination unit 142 It may be determined that the radio terminal UE is used for MDT. In addition, even if at least one of the determination based on the information 2 or the determination based on the information 3 is OK, the MDT using terminal determination unit 142 determines that the determination based on the information 1 is NG (MDT cannot be used). It may be determined that the radio terminal UE is not used for MDT.

  The MDT control unit 143 controls the radio terminal UE that has been determined to be used for MDT to specify the measurement parameter and transmit the MDT Configuration message. When the MDT data (measurement result or position information) from the radio terminal UE is reported, the MDT control unit 143 accumulates the reported MDT data. The accumulated MDT data is used, for example, for optimization of E-UTRAN.

(2.2) Terminal Selection Method According to Second Embodiment FIG. 9 is a sequence diagram showing a terminal selection method according to the second embodiment.

  In step S401, when the start of MDT is determined, the radio base station eNB transmits a UE MDT_Information Request message requesting transmission of MDT time information to the radio terminal UE connected to the own station. The radio terminal UE receives a UE MDT_Information Request message.

  In step S402, the radio terminal UE transmits a UE MDT_Information Report message including MDT time information and a terminal identifier for identifying the terminal itself to the radio base station eNB. The radio base station eNB receives the UE MDT_Information Report message.

  In step S403, the radio base station eNB acquires MDT time information and a terminal identifier included in the received UE MDT_Information Report message, and uses the radio terminal UE indicated by the terminal identifier for MDT based on the acquired MDT time information. Decide whether or not to do.

  If it is determined that the radio terminal UE is used for MDT, in step S404, the radio base station eNB transmits an MDT Configuration message to the radio terminal UE. When receiving the MDT Configuration message, the radio terminal UE sets the measurement parameter included in the MDT Configuration message in the terminal, and starts the MDT process.

(2.3) Effect of Second Embodiment As described above, according to the second embodiment, the radio base station eNB is based on MDT time information related to the time or period when the radio terminal UE performs the MDT process. It is determined whether or not the radio terminal UE is used for MDT. Thereby, about the radio | wireless terminal UE immediately after being used for MDT, and the radio | wireless terminal UE which performed MDT over a long time, it can determine not to use for MDT. Therefore, it is possible to reduce the possibility that the MDT load is concentrated on a specific radio terminal UE.

(2.4) Modification 1 of the second embodiment
In the second embodiment described above, the radio base station eNB transmits a UE MDT_Information Request message requesting transmission of MDT time information to the radio terminal UE, and the radio terminal UE responds to reception of the UE MDT_Information Request message in UE. The MDT_Information Report message was transmitted to the radio base station eNB. However, the radio terminal UE may transmit the UE MDT_Information Report message to the radio base station eNB in the process of negotiation prior to transmission of the MDT Configuration message.

  FIG. 10 is a sequence diagram showing a terminal selection method according to this modification.

  As illustrated in FIG. 10, in step S501, when the radio base station eNB determines to set the measurement parameter in the radio terminal UE, the radio base station eNB transmits an MDT Configuration Negotiation message for performing negotiation with the radio terminal UE to the radio terminal UE. . The radio terminal UE receives the MDT Configuration Negotiation message.

  In step S502, the radio terminal UE transmits a UE MDT_Information Report message including MDT time information and a terminal identifier for identifying the terminal itself to the radio base station eNB. The radio base station eNB receives the UE MDT_Information Report message. The subsequent processing is the same as in the second embodiment.

(2.5) Modification 2 of the second embodiment
In the second embodiment described above, the case where the radio base station eNB receives the UE MDT_Information Report message from one radio terminal UE has been described. However, the UE MDT_Information Report message may be received simultaneously from a plurality of radio terminals UE. .

  FIG. 11 is a sequence diagram illustrating a terminal selection method according to this modification.

  As illustrated in FIG. 11, when the start of MDT is determined in step S601, the radio base station eNB transmits a UE MDT_Information Request message requesting transmission of MDT time information to a plurality of radio terminals UE connected to the own station. Send. Each of the plurality of radio terminals UE receives a UE MDT_Information Request message.

  In Step S602, each of the plurality of radio terminals UE transmits a UE MDT_Information Report message including MDT time information managed by the own terminal and a terminal identifier for identifying the own terminal to the radio base station eNB. The radio base station eNB receives the UE MDT_Information Report message.

  In step S603, the radio base station eNB acquires the MDT time information and the terminal identifier included in each of the received UE MDT_Information Report messages, and determines the radio terminal UE indicated by the terminal identifier based on the acquired MDT time information as MDT. Decide whether or not to use. Here, in addition to the method described in the second embodiment, the radio terminal UE to be used for MDT may be determined by relative comparison of a plurality of radio terminals UE.

  In step S604, the radio base station eNB transmits an MDT Configuration message to the radio terminal UE used for MDT. When receiving the MDT Configuration message, the radio terminal UE sets the measurement parameter included in the MDT Configuration message in the terminal, and starts the MDT process.

(2.6) Modification 3 of the second embodiment
In the second embodiment described above, the radio base station eNB acquires the MDT time information from the radio terminal UE. However, when the maintenance monitoring apparatus OAM manages the MDT time information, the radio base station eNB starts from the maintenance monitoring apparatus OAM. You may get it.

  FIG. 12 is a sequence diagram illustrating a terminal selection method according to this modification.

  As illustrated in FIG. 12, in step S701, when the start of MDT is determined, the radio base station eNB transmits a transmission request for MDT time information to the maintenance monitoring device OAM. The transmission request includes the terminal identifier of the radio terminal UE connected to the radio base station eNB.

  The maintenance monitoring device OAM manages the MDT time information in association with the terminal identifier. When the maintenance monitoring apparatus OAM receives the transmission request for the MDT time information from the radio base station eNB, the maintenance monitoring apparatus OAM transmits a response message including the MDT time information corresponding to the terminal identifier included in the transmission request and the terminal identifier in step S702. To the station eNB.

  In step S703, the radio base station eNB acquires MDT time information and a terminal identifier included in the received response message, and determines whether to use the radio terminal UE indicated by the terminal identifier for MDT.

  When it is determined that the radio terminal UE is used for MDT, in step S704, the radio base station eNB transmits an MDT Configuration message to the radio terminal UE. When receiving the MDT Configuration message, the radio terminal UE sets the measurement parameter included in the MDT Configuration message in the terminal, and starts the MDT process.

(3) Other Embodiments As described above, the present invention has been described according to each 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.

  In each embodiment and each modification described above, an example of MDT time information has been described as information indicating the time at which the radio terminal UE transmits MDT data to the network. However, instead of the information indicating the time when the radio terminal UE transmits the MDT data to the network, the information indicating the time when the radio terminal UE is requested to transmit the MDT data from the network may be used as the MDT time information.

  Moreover, each embodiment and each modification mentioned above may be implemented independently, and may be implemented in combination with each other. Further, in each of the above-described embodiments and each modification example, an example using MDT dedicated messages (UE MDT_Information Request message, UE MDT_Information Report message) has been described, but these messages may be incorporated in other messages. .

  Furthermore, in each of the above-described embodiments and modifications, the Logged MDT has been mainly described. However, the present invention may be applied to an immediate report type MDT (referred to as Immediate MDT). In the Immediate MDT, a wireless terminal in a connected state (that is, during communication execution) measures a wireless environment and reports a measurement result and position information to a network.

  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.

  MME ... mobility management device, OAM ... maintenance monitoring device, S-GW ... / gateway device, UE ... wireless terminal, eNB ... wireless base station, 1 ... mobile communication system, 101 ... antenna, 110 ... wireless communication unit, 120 ... network Communication unit, 130 ... storage unit, 140 ... control unit, 141 ... information acquisition unit, 142 ... MDT use terminal determination unit, 143 ... MDT control unit, 201 ... antenna, 210 ... wireless communication unit, 220 ... user interface unit, 230 ... GPS receiver 240 ... battery 250 ... storage unit 260 ... control unit 261 ... MDT processing unit 262 ... MDT information management unit 310 ... network communication unit 320 ... storage unit 330 ... control unit 331 ... Information acquisition unit, 332... MDT use terminal determination unit, 333... MDT control unit

Claims (8)

A step in which the wireless terminal performs MDT processing, which is processing according to MDT;
Transmitting MDT time information related to the time or period when the wireless terminal has performed the MDT processing from the wireless terminal to the network;
A step of determining whether or not the network uses the wireless terminal for MDT based on the MDT time information from the wireless terminal. Further comprising a step of transmitting a predetermined message for acquiring the MDT time information from the network to the wireless terminal;
The terminal selection method according to claim 1, wherein in the step of transmitting the MDT time information, the MDT time information is transmitted in response to the predetermined message from the network. The step of performing the MDT process includes:
Recording MDT data including measurement results of the wireless environment according to the measurement parameters set by the measurement configuration message received from the network;
The terminal selection method according to claim 1, further comprising: transmitting the MDT data recorded in the recording step from the wireless terminal to the network.   The terminal selection method according to claim 3, wherein in the step of transmitting the MDT time information, information indicating a time at which the MDT data is transmitted in the step of transmitting the MDT data is transmitted as the MDT time information.   5. The determining step determines that the wireless terminal is not used for MDT when a time difference between a time indicated by the MDT time information from the wireless terminal and a current time is less than a predetermined time. The terminal selection method according to.   The terminal selection method according to claim 3, wherein in the step of transmitting the MDT time information, information regarding a period during which the wireless terminal holds MDT data is transmitted to the network as the MDT time information. The measurement parameter includes a measurement period in which the wireless terminal should perform measurement,
The terminal selection method according to claim 3, wherein in the step of transmitting the MDT time information, information indicating the measurement period is transmitted as the MDT time information. A network device provided in the network,
An acquisition unit that acquires MDT time information related to the time or period when the wireless terminal performs MDT processing that is processing according to MDT;
A network apparatus comprising: a determination unit that determines whether to use the wireless terminal for MDT based on the MDT time information.

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