JP5187177B2 - Mobile station apparatus and channel quality information transmission method - Google Patents

Description

  The present invention relates to a mobile station apparatus and a channel quality information transmission method. In particular, it is preferably used for transmission of a channel quality indicator (CQI) when discontinuous reception (DRX) control is performed in a radio resource management (RRC) connection between a radio base station and a mobile station apparatus. It is.

In 3GPP (3 ^rd Generation Partnership Project) which is an international standardization organizations of the third generation mobile phone system, a wireless communication system according to LTE is new communication standard between a radio base station and the mobile station apparatus (Long Term Evolution) It is being considered. One function of the wireless communication system is intermittent reception (DRX) control in a radio resource management (RRC) connection.

  The intermittent reception (DRX) control is a function aiming at power saving, and FIG. 3 shows an outline of the operation of the intermittent reception (DRX) control. The mobile station apparatus intermittently receives a downlink control channel (PDCCH: Physical Downlink Control Channel), monitors the downlink control channel (PDCCH) from the serving base station only during the on-duration 3-1, and addresses it to its own station. Monitor whether there is any data.

  And in the period of the intermittent reception opportunity (Opportunity for DRX) 3-2 shown in FIG. 3, the downlink control channel (PDCCH) from a serving base station is not monitored, but a different frequency signal is measured for a hand-over. The intermittent reception cycle (DRX Cycle) 3-3 is composed of two periods, the on-duration period 3-1 and the intermittent reception opportunity (DRP) period 3-2. ) Intermittent reception is repeated at 3-3.

  In addition, in order to implement link adaptation (for example, transmission power control and adaptive modulation and coding) following fast fading, the mobile station apparatus sends a channel quality indicator (CQI) indicating the status of the radio channel to the serving base station. Send repeatedly.

  FIG. 4 shows a transmission operation example of the channel quality indicator (CQI). In the figure, (a) shows the monitoring period of the intermittent reception cycle (DRX Cycle). (B) shows each sub-frame of a downlink control channel (PDCCH). (C) shows a transmission scheduling signal of a channel quality indicator (CQI). (D) shows a channel quality measurement period. (E) indicates each subframe of the uplink control channel (PUCCH).

  The mobile station apparatus monitors the downlink control channel (PDCCH) only during the on-duration period, which is the monitoring period. In the example of FIG. 4, the subframe number is from 01 to 06. Further, since the period during which the mobile station apparatus can transmit control data on the uplink control channel (PUCCH) is defined as the same period as the monitoring period of the downlink control channel (PDCCH), the uplink control channel (PUCCH) The subframe number is a period from 01 to 06.

  The timing for transmitting channel quality indicator (CQI) information on the uplink control channel (PUCCH) is scheduled according to an instruction from the base station, and for example, uplink control is performed at the timing indicated by the CQI transmission scheduling signal shown in (c) of FIG. It is transmitted in a subframe of the channel (PUCCH).

  In the example of FIG. 4, the transmission timing of the channel quality indicator (CQI) indicated by the CQI transmission scheduling signal is the timing of the subframe numbers 02 and 07, but the uplink control channel (PUCCH) transmission possible period is Since this is the period from subframe number 01 to 06 in the on-duration period, the channel quality indicator (CQI) is actually transmitted only in the subframe of subframe number 02.

The discontinuous reception (DRX) control is described in Non-Patent Document 1 below. The transmission of transmitting the channel quality indicator (CQI) is described in, for example, Patent Documents 1 and 2 below.
3GPP TS36.300 V8.5.0 (2008-05) JP 2007-202096 A JP 2008-54125 A

  When the mobile station apparatus receives a downlink control channel (PDCCH) addressed to itself during the monitoring period (on-duration period), the mobile station apparatus activates an inactivity timer (Inactivity Timer). The monitoring period of the downlink control channel (PDCCH) is extended until the timing period by the Inactivity Timer expires. An example of this operation is shown in FIG.

  In FIG. 5, (a) shows the monitoring period of the intermittent reception cycle (DRX Cycle). (B) shows each sub-frame of a downlink control channel (PDCCH). (A ') indicates an output signal of an inactivity timer. (C) shows a transmission scheduling signal of a channel quality indicator (CQI). (D) shows a channel quality measurement period. (E) indicates each subframe of the uplink control channel (PUCCH).

  In FIG. 5, when control data addressed to the own station is received in a subframe of subframe number 06 of the downlink control channel (PDCCH), the mobile station apparatus uses an inactivity timer (Inactivity) as shown in (a ′). Timer) is started, and the monitoring period of the downlink control channel (PDCCH) is extended until the time measured by the inactivity timer expires, that is, until subframe number 13.

  Since the transmission possible period of the uplink control channel (PUCCH) is the same as the monitoring period of the downlink control channel (PDCCH), the uplink control channel (PUCCH) is also extended to subframe number 13, and subframe numbers 01 to 13 are extended. The period becomes the transmittable period. In this case, a channel quality indicator (CQI) is transmitted using subframe numbers 02, 07, and 12 of the uplink control channel (PUCCH) according to the instruction of the CQI scheduling signal.

  In the case of the operation example of FIG. 5, it is determined whether or not the control data received at the timing of the subframe number 06 is destined for the own station. If the channel quality indicator (CQI) is not transmitted at 07 but is addressed to the own station, the channel quality indicator (CQI) is transmitted at the timing of the subframe number 07 immediately after that.

  However, it is determined whether the control data received at the timing of the subframe number 06 is addressed to the own station, and transmitting the channel quality indicator (CQI) at the timing of the subframe number 07 immediately after that is the processing time required. It is difficult in terms of time due to constraints.

  In this way, control data addressed to the local station is received from the downlink control channel (PDCCH) in the subframe immediately before the end of the monitoring period (on duration period) of the intermittent reception cycle (DRX Cycle), and the subframe immediately after that is received. In this case, the channel quality indicator (CQI) may not be transmitted in the immediately following subframe.

  Therefore, there is a case where the channel quality indicator (CQI) cannot be transmitted although it is a period during which the channel quality indicator (CQI) should be transmitted. Therefore, accurate radio link control cannot be performed due to the lack of the channel quality indicator (CQI). Therefore, an object is to enable transmission of accurate channel quality information information even when transmission of channel quality information (for example, channel quality indicator: CQI) is lost.

  The mobile station apparatus as a first mode for solving the above problem extends the monitoring period when the control data of the downlink control channel is addressed to the own station, and transmits the channel quality information in the extended monitoring period The channel quality information transmission determining means for determining the timing at which the channel quality information cannot be transmitted, and the channel quality information to be transmitted at the timing at which the channel quality information cannot be transmitted at the next transmittable timing. And channel quality information processing means to be reflected in the channel quality information.

  The channel quality information transmission method according to the second mode is such that when the control data of the downlink control channel is addressed to the own station, the monitor period is extended and the channel quality information is transmitted in the extended monitor period. In this case, the first step of determining the timing at which the channel quality information cannot be transmitted and the value of the channel quality information to be transmitted at the timing at which the channel quality information cannot be transmitted are transmitted at the next transmittable timing. And a second step for reflecting the value in the channel quality information.

  According to the disclosed mobile station apparatus and channel quality information transmission method, accurate channel quality information can be transmitted even when transmission of channel quality information (for example, channel quality indicator: CQI) is lost. .

  FIG. 1 shows an example of an operation for transmitting the disclosed channel quality information. In the following, a channel quality indicator (CQI) will be described as an example of channel quality information. In the figure, (a) shows the monitoring period of the intermittent reception cycle (DRX Cycle). (B) shows each sub-frame of a downlink control channel (PDCCH). (A ') indicates an output signal of an inactivity timer. (C) shows a transmission scheduling signal of a channel quality indicator (CQI). (D) shows a channel quality measurement period. (E) indicates each subframe of the uplink control channel (PUCCH).

  In the operation example of FIG. 1, the description of the same operation as that of FIG. 5 is omitted. In FIG. 1, when a situation in which transmission is not possible despite a period during which a channel quality indicator (CQI) should be transmitted, such as subframe number 07, transmission is attempted using subframe number 07. The received channel quality indicator (CQI) is not discarded, but is reflected on the channel quality indicator (CQI) transmitted in the next transmittable subframe number 12 and transmitted.

  FIG. 2 shows a configuration example of the transmission function of the channel quality indicator (CQI). This configuration example shows a configuration example in which a missing channel quality indicator (CQI) is reflected on average with a channel quality indicator (CQI) to be transmitted next.

  In FIG. 2, the on-duration timer 2-1 sends a signal indicating the monitoring period (on-duration period) of the downlink control channel (PDCCH) in the intermittent reception period (DRX Cycle) to the PDCCH monitoring unit 2-2. To do.

  The PDCCH monitor unit 2-2 inputs a downlink control channel (PDCCH) signal during the monitoring period indicated by the output signal of the on duration timer 2-1, and the downlink control channel (PDCCH) data is received by the local station. Determine whether the data is addressed.

  When the data of the downlink control channel (PDCCH) is data destined for the own station, the timer activation request is made to the inactivity timer section 2-3. The inactivity timer section 2-3 outputs a signal indicating the monitor extension period when the timer is activated.

  The PDCCH monitor unit 2-2 receives signals indicating the monitoring period and the extension period of the downlink control channel (PDCCH) from the on duration timer 2-1 and the inactivity timer unit 2-3. The period indicated by the logical sum signal of the two signals is the downlink control channel (PDCCH) monitoring period.

  The CQI transmission scheduling unit 2-4 transmits a signal indicating the transmission timing of the channel quality indicator (CQI) at a timing indicated by the control signal from the serving base station, and outputs a signal indicating the CQI measurement unit 2-5 and the CQI transmission determination unit 2-6. Output to.

  The CQI measurement unit 2-5 receives a reference signal for measuring the status of the radio channel with the serving base station, measures the channel quality of the radio channel according to the transmission schedule signal of the channel quality indicator (CQI), A quality indicator (CQI) is calculated and output to the CQI averaging processor 2-7.

  The CQI transmission determination unit 2-6 includes a signal indicating a period during which the channel quality indicator (CQI) output from the on duration timer 2-1 and the inactivity timer unit 2-3 is to be transmitted; The channel quality indicator (CQI) transmittable subframe information is determined based on the channel quality indicator (CQI) transmission subframe position information output from the CQI transmission scheduling unit 2-4, and the channel quality indicator (CQI) transmittable subframe information is determined. Is output to the PUCCH generation unit 2-8.

  Also, the CQI transmission determination unit 2-6 inputs information on the activation determination timing (determination timing of the downlink control channel addressed to the own station) when the inactivity timer (Inactivity Timer) unit 2-3 is activated, It is determined that transmission is not possible with respect to channel quality indicator (CQI) transmission subframe position information at a timing when there is not a sufficient processing period from the activation determination timing, and the determination result is notified to the CQI average processing unit 2-7. To do.

  In the CQI average processing unit 2-7, when channel quality indicator (CQI) transmission subframe position information that cannot be transmitted is input from the CQI transmission determination unit 2-6, the value of the channel quality indicator (CQI) at that time is set. The channel quality indicator (CQI) that is input and averaged with the next input channel quality indicator (CQI) is calculated, and the averaged channel quality indicator (CQI) value is used as the next channel quality indicator (CQI). It outputs to the production | generation part 2-8.

  Note that the CQI average processing unit 2-7 generates the PUCCH as it is by using the channel quality indicator (CQI) measured by the CQI measurement unit 2-5 when the determination result indicating that transmission is impossible is not input from the CQI transmission determination unit 2-6. Output to unit 2-8.

  In accordance with the instruction from the CQI transmission determination unit 2-6, the PUCCH generation unit 2-8 converts the channel quality indicator (CQI) output from the CQI average processing unit 2-7 into the corresponding subframe of the uplink control channel (PUCCH). Insert and send to serving base station.

  In the configuration example of FIG. 2, the CQI average processing unit 2-7 is used as a technique for reflecting a channel quality indicator (CQI) at a timing at which transmission is not possible on a channel quality indicator (CQI) to be transmitted at the next transmittable timing. This is a configuration example to which a method of averaging and reflecting is applied.

  However, the method of reflecting is not limited to this, and the data of the channel quality indicator (CQI) value at a timing at which transmission is not possible is changed to the data of the channel quality indicator (CQI) value to be transmitted at the next transmittable timing. It is also possible to apply a method of adding and outputting. That is, the data of the channel quality indicator (CQI) value at a timing at which transmission is impossible can be transmitted together with the data of the next channel quality indicator (CQI) value at a timing at which transmission is possible next.

  Further, an average value is calculated by weighting the value of the channel quality indicator (CQI) at a timing when transmission is impossible and the value of the channel quality indicator (CQI) transmitted at the timing when transmission is possible next. A value may be output as a channel quality indicator (CQI) that is transmitted at the next transmittable timing.

It is a figure which shows the example of transmission operation | movement of the disclosed channel quality indicator (CQI). It is a figure which shows the structural example of the transmission function of a channel quality indicator (CQI). It is explanatory drawing of discontinuous reception (DRX) control. It is a figure which shows the example of transmission operation | movement of a channel quality indicator (CQI). It is a figure which shows the example of transmission operation | movement of the channel quality indicator (CQI) at the time of monitor period extension.

Explanation of symbols

2-1 On duration timer 2-2 PDCCH monitor unit 2-3 Inactivity timer unit 2-4 CQI transmission scheduling unit 2-5 CQI measurement unit 2-6 CQI transmission determination unit 2-7 CQI Average processor 2-8 PUCCH generator

Claims (5)

The monitor period for receiving the downlink control channel from the base station and the measurement period for the different frequency signal are alternately switched, and channel quality information indicating the status of the radio channel with the base station in the monitor period is displayed in the monitor period. In a mobile station device that transmits to the base station via an uplink control channel,
When the control data of the downlink control channel is addressed to the own station, when the monitoring period is extended and the quality information is transmitted in the extended monitoring period, the channel quality information cannot be transmitted Quality information transmission determination means for determining
Channel quality information processing means for reflecting the channel quality information to be transmitted at a timing at which transmission is not possible, to the channel quality information to be transmitted at a timing at which transmission is possible next;
A mobile station apparatus comprising:   The channel quality information processing means performs processing for adding channel quality information value data to be transmitted at a timing at which transmission is not possible to channel quality information value data to be transmitted at a timing at which transmission is possible next. The mobile station apparatus according to claim 1.   The channel quality information processing means calculates an average value of the channel quality information value to be transmitted at a timing at which transmission is not possible and the channel quality information value to be transmitted at a timing at which transmission is possible next. The mobile station apparatus according to claim 1, wherein the value is output as channel quality information to be transmitted at a timing at which transmission is possible next.   The channel quality information processing means calculates an average value weighted to a value of channel quality information to be transmitted at a timing when transmission is impossible and a value of channel quality information to be transmitted at a timing when transmission is possible next The mobile station apparatus according to claim 1, wherein the mobile station apparatus outputs the average value as channel quality information to be transmitted at a next transmittable timing. The monitor period for receiving the downlink control channel from the base station and the measurement period for the different frequency signal are alternately switched, and channel quality information indicating the status of the radio channel with the base station in the monitor period is displayed in the monitor period. In a transmission method of channel quality information in a mobile station that transmits to the base station via an uplink control channel,
When the control data of the downlink control channel is addressed to the own station, the channel quality information cannot be transmitted when the monitor period is extended and the channel quality information is transmitted in the extended monitor period A first step of determining timing;
A second step of reflecting the value of channel quality information to be transmitted at a timing at which transmission is impossible, on the value of channel quality information to be transmitted at a timing at which transmission is possible next;
A method for transmitting channel quality information, comprising:

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