JP2006222542A - Wireless network control station apparatus and position registration update control method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a wireless network control station apparatus and a position registration update control method for reducing the power consumption required for registration update of positional information of mobile terminals existing in one and same mobile body. <P>SOLUTION: A grouping processing section 204 stores reception strength of a downlink physical channel measured by UE 100 and transmitted from the UE 100, and generates a time variation pattern of the reception strength by each UE resulting in grouping the UEs taking the same time variation pattern. A measurement information control section 205 shifts position update timings of the grouped UEs by each UE at an original position update interval T1 each and sets the position update interval to a value T2 resulting from a multiple of the number of grouped UEs with the T1. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a radio network control station apparatus that manages location information of a mobile terminal and a location registration update control method.

  In the W-CDMA (Wideband-Code Division Multiple Access) system, a wireless network control device uses a wireless network based on measurement information such as reception intensity information, location update information, and traffic volume information reported from a mobile terminal (UE). UE location management, handover control, channel setting control, and the like.

  FIG. 5 shows the configuration of the mobile communication system disclosed in Non-Patent Document 1. In this figure, the mobile communication system includes UEs 11 to 13, radio base station devices (Node B) 21 to 24, radio network control devices (RNC) 31 and 32 that control Node Bs 21 to 24, UE location management, and call control. A core network (CN) 40 is provided.

  6 is a block diagram showing a system configuration of a control system of the UE and the RNC shown in FIG. In FIG. 6, the representative of UE 11 to 13 in FIG. 5 is represented as UE 10, the representative of Node B 21 to 24 is represented as Node B 20, and RNC 31 and 32 are represented as RNC 30.

  First, the configuration of the UE 10 will be described. The receiving unit 51 receives the radio frame transmitted from the Node B 20, performs a predetermined reception process on the received radio frame, and outputs the received signal to the measurement information setting unit 52 and the received power measurement unit 53.

  The measurement information setting unit 52 sets the measurement items and measurement methods requested from the RNC 30 based on the signal output from the reception unit 51 in the reception power measurement unit 53, the position update timing management unit 54, and the position measurement unit 55. .

  The received power measurement unit 53 measures the downlink physical channel reception strength from each Node B 20 from the signal output from the reception unit 51 according to the setting of the measurement information setting unit 52, and the measured reception strength is measured by the measurement information generation unit 56. Output to.

  The position update timing management unit 54 manages the update timing of the position information based on the measurement method set in the measurement information setting unit 52 and notifies the position measurement unit 55 of the position update timing.

  The position measurement unit 55 measures the current position of the UE 10 in accordance with instructions from the measurement information setting unit 52 and the position update timing management unit 54 and notifies the measurement information generation unit 56 of the measured current position.

  The measurement information generation unit 56 generates a measurement information message indicating the reception power notified from the reception power measurement unit 53, the current position of the UE 10 notified from the position measurement unit 55, and other traffic amounts, and the generated measurement information message Is output to the transmitter 57.

  The transmission unit 57 performs a predetermined transmission process on the information output from the measurement information generation unit 56 to form a radio frame, and transmits the formed radio frame to the Node B 20.

  Next, the configuration of the RNC 30 will be described. The receiving unit 61 receives the frame transmitted from the Node B 20, performs a predetermined reception process on the received frame, and outputs the received signal to the measurement information processing unit 62.

  The measurement information processing unit 62 processes the measurement information message from the UE 10 included in the signal output from the reception unit 61, and extracts the location information of the UE 10, the reception strength of the downlink physical channel, the traffic amount, and the like from the measurement information message. . The extracted location information of the UE 10 is output to the location information management unit 63, and the reception strength of the downlink physical channel is output to the handover control unit 65. In addition, measurement information such as the location information of the UE 10, downlink physical channel reception intensity, and traffic volume is output to the measurement information control unit 64.

  The location information management unit 63 manages the location of the UE in the wireless network based on the location information of the UE 10 output from the measurement information processing unit 62.

  Based on the measurement information output from the measurement information processing unit 62, the measurement information control unit 64 determines and determines items to be measured by the UE 10 (downlink physical channel reception intensity, position information, traffic amount, etc.), method, and the like. The control information generation unit 66 is notified of the items and methods that have been performed.

  The handover control unit 65 controls the handover of the UE 10 based on the reception strength of the downlink physical channel from the UE 10 output from the measurement information processing unit 62. When performing a handover, the control information generation unit 66 is requested to generate a handover instruction message.

  The control information generation unit 66 generates and generates a measurement information control message for instructing the UE 10 of measurement items and measurement methods notified from the measurement information control unit 64 and a handover instruction message requested by the handover control unit 65. The control message is output to the transmitter 67.

  The transmission unit 67 generates a frame by performing transmission processing on the control message output from the control information generation unit 66, and transmits the generated frame to the Node B 20.

  Next, a measurement information reporting procedure from the UE 10 to the RNC 30 will be described. The receiving unit 51 of the UE 10 receives the measurement information control message from the RNC 30, and the measurement information setting unit 52 sets the measurement item, the measurement method, and the like indicated by the measurement information control message in each processing unit.

  When the measurement item of the measurement information control message is the reception strength of the downlink physical channel, the measurement method and the condition (report condition) for reporting to the RNC 30 are set in the reception power measurement unit 53. When the measurement item is the location information of the UE 10, the location update interval is set in the location update timing management unit 54 and the measurement method is set in the location measurement unit 55.

  The reception power measurement unit 53 sequentially measures the reception strength of the downlink physical channel from each Node B, and requests the measurement information generation unit 56 to report the measurement information to the RNC 30 when the report condition is satisfied.

  The position measurement unit 55 measures the movement amount from the position previously registered in the RNC 30 at each position update interval T according to the instruction of the position update timing management unit 54, and the measurement information generation unit 56 stores the position information of the UE 10 to the RNC 30. Request a report.

  In the measurement information generation unit 56, the measurement information of each processing unit is set in the measurement information message, and is transmitted from the transmission unit 57 to the Node B 20. Since position information is generated every position update interval T [s], a measurement information message is also transmitted every T [s].

  The Node B 20 converts the radio frame received from the UE 10 into a frame and transfers it to the RNC 30. Also, the frame received from the RNC 30 is converted into a radio frame and transmitted to the UE 10.

  The receiving unit 61 of the RNC 30 receives the frame transferred from the Node B 20 and performs predetermined reception processing on the received frame. If the frame is a measurement information message, the received signal is sent to the measurement information processing unit 62. The measurement information processing unit 62 outputs the measurement information from the measurement information message.

  When the extracted information is downlink physical channel reception intensity information, the information is transferred to the handover control unit 65. Further, when the extracted information is the location information of the UE 10, the information is transferred to the location information management unit 63. Further, the extracted information is transferred to the measurement information control unit 64.

  The location information management unit 63 registers the location information of the UE 10 transferred from the measurement information processing unit 62 in the management table, and manages the location of the UE 10 in the wireless network.

  The measurement information control unit 64 determines items (such as downlink physical channel reception strength and position information, traffic amount) and measurement method that the UE 10 measures, and measures the measurement items and measurement method, etc. in the control information generation unit 66. Instruct to set in control message.

  The handover control unit 65 determines whether or not to perform the handover of the UE based on the downlink physical channel reception strength information transferred from the measurement information processing unit 62. If it is determined that a handover is to be performed, the control information generation unit 66 is requested to generate a handover instruction message to the UE 10.

  The control information generation unit 66 generates each control message, and the transmission unit 67 converts each control message into a frame and transmits the frame to the Node B 20.

  Moreover, the transmission procedure of the measurement information message (UE10 position information) disclosed in Non-Patent Document 2 is shown in FIG. In FIG. 7, in step (hereinafter abbreviated as “ST”) 71, RNC 30 sets the location measurement method and location update interval T of UE 10 in the measurement information control message, and transmits the measurement information control message to UE 10.

  In ST72, the UE 10 that has received the measurement information control message sets the position measurement method in the position measurement unit 55 and the position update interval T in the position update timing management unit 54.

In ST73, the location information of UE10 is set in the measurement information message every T [s] and transmitted to RNC30.
3GPP, TS25.401UTRAN overall description, V6.3.0 3GPP, TS25.331 Radio Resource Control (RRC), V6.2.0

  However, when multiple UEs exist in the same mobile body such as trains or buses, the location information (movement amount) reported from each UE to the RNC becomes the same information, and the location of one UE present in the same mobile body Although it is possible to report the location information of all UEs by information, there is a problem that the same information is transmitted from each UE at the same interval, and the power of each UE is wasted.

  The present invention has been made in view of such a point, and provides a radio network control station apparatus and a location registration update control method that reduce power consumption required for registration update of location information of mobile terminals existing in the same mobile body. With the goal.

  The first aspect of the present invention is a grouping processing means for grouping a plurality of mobile terminals existing in the same mobile body, a timing at which the location information of the grouped mobile terminals is updated by the grouped mobile terminals, and A wireless network control station apparatus comprising location registration update control means for changing an update interval.

  According to this configuration, by changing the timing and update interval for updating the location information of the grouped mobile terminals, the registration information update frequency in the mobile terminal is reduced without degrading the accuracy of the location information. be able to.

  According to a second aspect of the present invention, in the above aspect, the radio network controller according to the above aspect, wherein the grouping processing unit groups the mobile terminals based on a time variation pattern of reception strength of the downlink physical channel reported from the mobile terminals. Device.

  According to this configuration, since it is considered that mobile terminals having the same time variation pattern of the received strength of the downlink physical channel exist in the same mobile body, the mobile terminals can be grouped with high accuracy.

  According to a third aspect of the present invention, in the above aspect, the position registration update control unit shifts a timing for updating the position information for each grouped mobile terminal, and updates the position information in the ungrouped mobile terminals. It is a radio network control station apparatus that uses a value obtained by multiplying the interval by the number of grouped mobile terminals as a location information update interval in the grouped mobile terminals.

  According to this configuration, as the number of grouped mobile terminals increases, the frequency of registration update of location information in one mobile terminal can be reduced.

  A fourth aspect of the present invention is a grouping process for grouping a plurality of mobile terminals existing in the same mobile body, and timing and update for updating the grouped mobile terminals with location information of the grouped mobile terminals A location registration update control method comprising: a location registration update control step of changing an interval.

  According to this method, the registration information update frequency in the mobile terminal is reduced without changing the accuracy of the location information by changing the timing and update interval for updating the location information of the grouped mobile terminals. be able to.

  ADVANTAGE OF THE INVENTION According to this invention, the power consumption required for the measurement and transmission of the positional information on the mobile terminal which exists in the same mobile body can be reduced.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(One embodiment)
FIG. 1 is a block diagram showing a configuration of a control system of UE and RNC according to one embodiment of the present invention. First, the configuration of the UE 100 will be described. The receiving unit 101 receives the radio frame transmitted from the Node B, performs a predetermined reception process on the received radio frame, and outputs the received signal to the measurement information setting unit 102 and the received power measurement unit 103.

  The measurement information setting unit 102 sets the measurement item and measurement method requested from the RNC 200 based on the signal output from the reception unit 101 in the reception power measurement unit 103, the position update timing management unit 104, and the position measurement unit 105. .

  The reception power measuring unit 103 measures the downlink physical channel reception strength from each Node B from the signal output from the reception unit 101 according to the setting of the measurement information setting unit 102, and the measured reception strength is measured by the measurement information generation unit 106. Output to.

  The location update timing management unit 104 manages the update timing of the location information based on the measurement method set in the measurement information setting unit 102 and notifies the location measurement unit 105 of the location update timing.

  The position measurement unit 105 measures the current position of the UE 100 in accordance with instructions from the measurement information setting unit 102 and the position update timing management unit 104, and notifies the measurement information generation unit 106 of the measured current position.

  The measurement information generation unit 106 generates a measurement information message indicating the reception power notified from the reception power measurement unit 103, the current position of the UE 100 notified from the position measurement unit 105, other traffic amount, and the like, and the generated measurement information message Is output to the transmission unit 107.

  The transmission unit 107 performs a predetermined transmission process on the information output from the measurement information generation unit 106 to form a radio frame, and transmits the formed radio frame to the Node B.

  Next, the configuration of the RNC 200 will be described. The receiving unit 201 receives the frame transmitted from the Node B, performs a predetermined reception process on the received frame, and outputs the received signal to the measurement information processing unit 202.

  The measurement information processing unit 202 processes the measurement information message from the UE 100 included in the signal output from the reception unit 201, and extracts location information of the UE 100, downlink physical channel reception intensity, traffic amount, and the like from the measurement information message. . The extracted location information of the UE 100 is output to the location information management unit 203, and the reception strength of the downlink physical channel is output to the handover control unit 206. In addition, measurement information such as location information of the UE 100, downlink physical channel reception strength, and traffic volume is output to the grouping processing unit 204 and the measurement information control unit 205.

  The location information management unit 203 manages the location of the UE in the wireless network based on the location information of the UE 100 output from the measurement information processing unit 202.

  The grouping processing unit 204 groups UEs based on the measurement information of the UE 100 output from the measurement information processing unit 202 and notifies the measurement information control unit 205 of the grouping information. Details of the grouping method will be described later.

  The measurement information control unit 205 serving as a location registration update control unit changes the location update timing and location update interval of each UE based on the measurement information notified from the grouping processing unit 204, and the changed location update timing and location. The control information generation unit 207 is notified of the update interval.

  The handover control unit 206 controls handover of the UE 100 based on the reception strength of the downlink physical channel from the UE 100 output from the measurement information processing unit 202. When performing a handover, the control information generating unit 207 is requested to generate a handover instruction message.

  The control information generation unit 207 generates a measurement information control message instructing the location update timing and location update interval of each UE notified from the measurement information control unit 205, and a handover instruction message requested from the handover control unit 206. The generated control message is output to the transmission unit 208.

  The transmission unit 208 generates a frame by performing transmission processing on the control message output from the control information generation unit 207, and transmits the generated frame to the Node B.

  Here, a UE grouping method in the grouping processing unit 204 will be specifically described with reference to FIG. As illustrated in FIG. 2, the grouping processing unit 204 holds the reception strength of the downlink physical channel reported from each UE (UE1 to UE3), and generates a temporal variation pattern of the reception strength for each UE. Then, the generated time variation patterns of the UEs are compared, and a plurality of UEs having the same time variation pattern are grouped into the same group.

  In the example illustrated in FIG. 2, since the time variation patterns of the UEs 1 to 3 are the same, the UEs 1 to 3 are grouped as the same group. Note that a method other than the method described here may be used as a grouping method for UEs.

  Next, a procedure for changing the location update timing and location update interval by grouping UEs will be described with reference to FIG. 3, in step (hereinafter abbreviated as “ST”) 301, UE 100 transmits a measurement information message including the position information of UE 100 to RNC 200. In ST 302, position update is performed on the position information transmitted in ST 301. A measurement information message including the location information of the UE 100 generated at the interval T1 is transmitted to the RNC 200.

  In ST303, a measurement information message including the reception strength of the downlink physical channel measured by UE 100 is transmitted to RNC 200.

  In ST304, RNC 200 groups UEs based on measurement information transmitted from each UE.

  In ST305, RNC 200 changes the location update timing and location update interval of each UE based on UE grouping information. A specific method for changing the position update timing and the position update interval will be described later.

  In ST306, the RNC 200 sets the location update timing and location update interval changed in ST305 in the measurement information control message (UE location information), and transmits it to the UE100.

  In ST307, a measurement information control message (UE position information) received by UE 100 from RNC 200 is processed by measurement information setting section 102, and measurement information setting section 102 includes the position included in the measurement information control message (UE position information). The update timing and position update interval are set in the position update timing management unit 104.

  In ST308, UE100 measures the movement amount of UE100 at a new location update timing, and transmits a measurement information message to RNC200. Then, the movement amount of the UE is periodically measured at a new location update interval T2, and a measurement information message is transmitted to the RNC 200.

  Next, a specific method for changing the position update timing and the position update interval will be described with reference to FIG. Here, it is assumed that UE1 to UE3 exist in the same mobile body and are grouped. At this time, the UE location information reported from the UEs 1 to 3 to the RNC is the same information. Therefore, it is possible to use the location information of UE transmitted from UE1 as all the location information of grouped UE1-3. The same applies to UE location information transmitted from UE2 and UE3.

  Therefore, the position update timing is shifted for each UE by the original position update interval T1, and the position update interval is set to a value T2 obtained by multiplying the number of UEs grouped (here, three times). Accordingly, the frequency with which each UE measures and transmits the position information is reduced without degrading the accuracy of the position information, and accordingly, the power consumption required for the measurement and transmission of the position information can be reduced.

  As described above, according to the present embodiment, a plurality of mobile terminals existing in the same mobile body are grouped, and the position update timings of the grouped mobile terminals are shifted by the position update intervals of ungrouped mobile terminals, The frequency of registration update of location information in the mobile terminal is reduced by setting the location update interval of the grouped mobile terminals to the value obtained by multiplying the location update interval of ungrouped mobile terminals by the number of grouped mobile terminals. Therefore, it is possible to reduce power consumption required for registration update of location information of mobile terminals existing in the same mobile body.

  The radio network control station apparatus and location registration update control method according to the present invention can reduce power consumption required for registration update of location information of mobile terminals existing in the same mobile unit, such as a W-CDMA mobile communication system. Can be applied to.

The block diagram which shows the structure of the control system of UE and RNC which concerns on one embodiment of this invention The figure with which it uses for description of the grouping method of UE in the grouping process part shown in FIG. Sequence diagram showing procedure for changing location update timing and location update interval by grouping UEs The figure which serves for explanation of the concrete change method of position update timing and position update interval The figure which shows the structure of the mobile communication system disclosed by the nonpatent literature 1. The block diagram which shows the system configuration | structure of the control system of UE shown in FIG. 5, and RNC Sequence diagram showing a measurement information message transmission procedure disclosed in Non-Patent Document 2

Explanation of symbols

100 UE
101, 201 Reception unit 102 Measurement information setting unit 103 Received power measurement unit 104 Position update timing management unit 105 Position measurement unit 106 Measurement information generation unit 107, 208 Transmission unit 200 RNC
202 Measurement Information Processing Unit 203 Location Information Management Unit 204 Grouping Processing Unit 205 Measurement Information Control Unit 206 Handover Control Unit 207 Control Information Generation Unit

Claims (4)

Grouping processing means for grouping a plurality of mobile terminals existing in the same mobile body;
Location registration update control means for changing the timing and update interval of the grouped mobile terminals to update the location information of the grouped mobile terminals;
A wireless network control station apparatus comprising:   2. The radio network control station apparatus according to claim 1, wherein the grouping processing unit groups mobile terminals based on a temporal variation pattern of reception strength of a downlink physical channel reported from the mobile terminals.   The location registration update control means shifts the timing for updating location information for each grouped mobile terminal, and multiplies the update interval of location information in ungrouped mobile terminals by the number of grouped mobile terminals. The radio network control station apparatus according to claim 1 or 2, wherein the updated value is an update interval of position information in the grouped mobile terminals. A grouping process for grouping a plurality of mobile terminals existing in the same mobile body;
A location registration update control step for changing the timing and update interval of the grouped mobile terminals to update the location information of the grouped mobile terminals;
A location registration update control method comprising:

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