JP2006304347A - Mobile communication apparatus, base station, communication system, method and program for mobile communication and method and program for base station communication - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a base station 10 to control electric power for downlink data transmission by utilizing feedback information from a mobile station 20. <P>SOLUTION: The mobile station 20 receives a plurality of pieces of control information transmitted from a plurality of base stations 10, estimates the ratio of interference in each of control information during reception as an SIR from the plurality of pieces of received control information, produces information on interference during diversity hand-over from the estimated SIR as feedback information and transmits that information to the plurality of base stations 10 and each of the plurality of base stations 10 controls the electric power for data transmission on a downlink channel 1 from the feedback information transmitted from the mobile station 20. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to control of transmission power amount of a data transmission channel for transmitting downlink transmission data.

FIG. 14 is a system configuration diagram in the case where conventional downlink transmission data and control information are transmitted from a base station to a mobile station.
Reference numeral 10 denotes a base station (BTS: Base Transceiver Station).
Reference numeral 20 denotes a mobile station (UE: User Equipment).
Reference numeral 1 denotes a downlink channel for transmitting downlink transmission data from the base station 10 to the mobile station 20. Downlink channel 1 indicates a data transmission channel.
2 is an accompanying channel accompanying the downlink channel. The accompanying channel 2 indicates a control information transmission channel.
Reference numeral 3 denotes an uplink channel for transmitting data from the mobile station 20 to the base station 10.
Here, the channel refers to a frequency band assigned at the time of transmission performed for a specific purpose such as transmission of data and control information. In W-CDMA (Wideband-Code Division Multiple Access), a plurality of users can share the same frequency band and transmit downlink transmission data.

The upper part of FIG. 14 shows the transmission operation of the downlink transmission data.
In the base station 10, first, transmission data to be sent to the mobile station 20 is sent to the encoding unit 15 and encoded by the encoding unit 15. The encoded transmission data is assembled into a physical channel configuration by the physical channel unit 14, modulated by the modulation unit 13 a, sent to the data transmission power control unit 130, and transmission of the downlink channel 1 by the data transmission power control unit 130. It is transmitted to the mobile station 20 by power control.
The mobile station 20 receives the downlink channel 1 transmitted from the data transmission power control unit 130, extracts reception data in the physical channel unit 25, and supplies reception level information to the DPCCH unit 21f. The user who is the holder of the mobile station 20 can obtain information from the base station 10 by receiving the received data in this way.
Here, the downlink channel 1 is a common channel, that is, a channel in which a plurality of users share the same frequency code. Therefore, specific control information is transmitted to the downlink channel 1 using the associated channel 2 in order to distinguish a plurality of downlink transmission data transmitted using the same frequency band.

The middle part of FIG. 14 shows a transmission operation in which the base station 10 transmits downlink control information to the mobile station 20 using the associated channel 2 associated with the downlink channel 1.
Downlink control information is assembled into a physical channel configuration by the DPCCH unit 11b and modulated by the modulation unit 13b. The transmission power control unit 131 performs transmission power control according to the TPC command extracted from the DPCCH received by the DPCCH unit 11 f, and this output is transmitted to the mobile station 20.
The mobile station 20 receives the associated channel 2, the DPCCH unit 21 f extracts the control information from the received DPCCH of the associated channel 2, and the extracted reception level information together with the reception level information from the physical channel unit 25 is downlink channel quality It supplies to the estimation part 133. The downlink channel quality estimation unit 133 estimates the channel quality according to the control information. The estimation result is assembled as a TPC command in the DPCCH field in the DPCCH unit 21 g as shown in the lower part of FIG. 14 and transmitted to the base station 10 using the uplink channel 3.
The DPCCH unit 11f of the base station 10 receives the DPCCH output transmitted from the DPCCH unit 21g of the mobile station 20, and extracts a TPC command. The transmission power control unit 131 of the base station 10 uses the TPC command extracted from the DPCCH as feedback information from the mobile station 20, and performs transmission power control of the associated channel 2 according to this information.
Here, DPCCH will be described. The DPCCH (Dedicated Physical Control Channel) refers to a channel having physical control information for satisfying the quality of the downlink channel. The DPCCH is a component of DPCH (Dedicated Physical Channel). That is, the DPCH format is composed of DPDCH (Dedicated Physical Data Channel) having data information and DPCCH having control information.
The DPCCH has fields of PILOT (pilot), TPC (Transmit Power Control), TFCI (Transport Format Combination Indicator), and FBI (Feedback Information).
PILOT is used as a reference for base station synchronization and uplink TPC.
TPC is used for transmission power control of the associated channel.
TFCI is used to explicitly notify the combination of transport channels.
The FBI is used for transmitting feedback information such as transmission diversity.

The operations shown in the middle and lower stages of FIG. 14 will be described in more detail.
First, in the base station 10, the control information is assembled into a DPCCH by the DPCCH unit 11b, modulated by the modulation unit 13b, and sent to the transmission power control unit 131. The transmission power control unit 131 controls the transmission power of the associated channel 2 and transmits control information to the mobile station 20.
The DPCCH unit 21f of the mobile station 20 decomposes this received signal and extracts a PILOT signal in the DPCCH. The power possessed by the PILOT signal is control information for estimating SIR (Signal to Interference Ratio). The downlink channel quality estimation unit 133 estimates the SIR from this control information. At the time of DHO (Diversity Hand Over: diversity handover), although not shown in FIG. 14, control information is transmitted as signals from the plurality of base stations 10 to the mobile station 20 using the associated channel 2. Here, SIR refers to the ratio of a signal that is not receiving interference and a signal that is receiving interference. Therefore, in this case, the ratio of the normal signal power and the interference signal power of the associated channel 2 (PILOT signal) is SIR.
Downlink channel quality estimation section 133 combines the estimated SIR, generates a TPC command from the combined value, and assembles it as a TPC command in the TPC field of DPCCH. The DPCCH unit 21 g of the mobile station 20 transmits the DPCCH to the base station 10 using the uplink channel 3. The DPCCH unit 11 f of the base station 10 receives the DPCCH transmitted from the mobile station 20.
The transmission power control unit 131 of the base station 10 controls the transmission power amount of the associated channel 2 that transmits downlink control information from the TPC command extracted from the DPCCH received by the DPCCH unit 11f. That is, the transmission power control unit 131 transmits the downlink control information to the mobile station 20 by controlling the transmission power of the associated channel 2 using the TPC command.

Here, DHO refers to the reception of signals from a plurality of cells to obtain diversity gain, and the seamless relationship between the base station 10 and the mobile station 20 at the time of transition in which the mobile station 20 moves from one cell to another cell. This is a technique for realizing transmission and reception. Therefore, when the mobile station 20 approaches the end (cell edge) of one cell, the base station 10 needs to perform control using DHO.
In this DHO, the conventional downlink channel 1 transmission power control method as described above has the following problems.
The transmission power control unit 131 supports not only non-DHO but also transmission power control of the associated channel 2 in DHO. That is, when the transmission power control unit 131 controls the transmission power of the associated channel 2 based on the TPC command stored in the DPCCH received using the uplink channel 3 during DHO, the diversity gain which is a gain at the time of DHO Can be obtained. Therefore, the transmission power control unit 131 can reduce the transmission power of the associated channel 2. For example, during DHO, control information is transmitted from the base station 10 to the mobile station 20 using the associated channel 2, and control information is transmitted from another base station (not shown) using another associated channel. Consider the case. Further, at this time, a case is considered where the downlink channel product estimation unit 133 estimates the SIR corresponding to each base station as 1/2 from these two pieces of control information. The transmission power control unit 131 of the base station 10 controls the transmission power amount of the associated channel 2 by controlling the transmission power amount of the associated channel 2 from the respective SIR values corresponding to each base station so that the transmission power amount of the associated channel 2 is about half of the normal amount. Send. In this way, even if the transmission power control unit 131 controls the transmission power amount of the associated channel 2, the diversity gain that control information is transmitted from each of the two base stations using the associated channel 2 at the time of DHO is obtained. For this reason, the channel quality of the associated channel 2 is maintained above a certain standard.
However, the transmission power control of the downlink channel 1 performed by the data transmission power control unit 130 is not supported at the time of DHO. Therefore, even when the downlink channel product estimation unit 133 estimates the SIR corresponding to each base station 10 to ½, as in the above example, the data transmission power control unit 130 Diversity gain cannot be obtained. Therefore, even if it is assumed that the data transmission power control unit 130 normally controls the transmission power of the downlink channel 1 using the TPC command used for transmission power control of the associated channel 2, the downlink transmission based on the TPC command is assumed. If the transmission power amount of channel 1 is controlled to about ½ of the normal value, the downlink channel 1 cannot obtain the diversity gain, so the transmission power amount of the downlink channel 1 is extremely reduced to ½ of the normal value. Resulting in. When transmission power control of the downlink channel 1 is performed from the TPC command information in this way, the quality of transmission data transmitted using the downlink channel 1 during DHO deteriorates, and the user who owns the mobile station 20 transmits the data to be transmitted. It will cause a situation where you are not satisfied with the quality. In addition, if the data transmission power control unit 130 controls the transmission power of the downlink channel 1 without using the TPC command received from the mobile station 20, it can be transmitted in response to the non-DHO time and the DHO time. The problem is whether or not it is possible to control the transmission power amount of the downlink channel 1 that guarantees a constant data quality.
JP 2001-044931 A WO 98/56200 pamphlet JP 2000-183812 A JP 2001-516997 A JP-A-10-112683

  The present invention generates power amount control information corresponding to whether or not it is a diversity handover in order to control transmission power of a control information transmission channel for transmitting downlink transmission data, and the generated power amount control information The purpose is to control the transmission power of the downlink transmission data using.

The mobile communication device according to the present invention includes a mobile receiver that receives a plurality of control information transmission channel signals transmitted from a plurality of base stations as a plurality of control information,
Based on a plurality of control information received by the mobile receiver, an estimation unit that estimates communication quality related to a plurality of control information as a quality estimation value;
A command generation unit that generates, as a command, power amount control information corresponding to whether or not it is a diversity handover in order to control the transmission power of the data transmission channel based on the quality estimation value estimated by the estimation unit; It is characterized by providing.

The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The command generation unit calculates a ratio of each quality estimation value from a plurality of quality estimation values estimated by the estimation unit, and generates a command based on the calculated ratio of each quality estimation value.

The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The mobile communication device further synthesizes a plurality of quality estimation values estimated by the estimation unit, and indicates a reference level determined for interference between the synthesized values of the plurality of synthesized quality estimation values and control information during communication A flag generation unit that compares the quality reference value and generates power amount control information for controlling transmission power based on the comparison result as a flag is provided.

The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The mobile communication device further includes a table in which a plurality of quality estimation values estimated by the estimation unit and a command type generated by the command generation unit are stored in association with each other.
The command generation unit selects a corresponding command from the table based on a plurality of quality estimation values estimated by the estimation unit.

The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The command generation unit selects a maximum value of the quality estimation value from a plurality of quality estimation values estimated by the estimation unit, and a reference level determined for interference between the selected maximum value of the quality estimation value and control information during communication And a command is generated based on the comparison result.

  The command generation unit assembles the generated command into a feedback information area in a transmission format for transmitting uplink control information.

The mobile communication device according to the present invention includes a mobile receiver that receives a plurality of data transmission channel signals transmitted from a plurality of base stations as a plurality of control information,
Based on a plurality of control information received by the mobile receiver, an estimation unit that estimates communication quality related to a plurality of control information as a quality estimation value;
A command generation unit that generates, as a command, power amount control information corresponding to whether or not it is during a diversity handover in order to control transmission power of a downlink channel based on the quality estimation value estimated by the estimation unit. It is characterized by.

The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The command generation unit selects a maximum value of the quality estimation value from a plurality of quality estimation values estimated by the estimation unit, and a reference level determined for interference between the selected maximum value of the quality estimation value and control information during communication And a command is generated based on the comparison result.

A base station according to the present invention comprises: a base station receiving unit that receives, from a mobile communication device, power amount control information corresponding to whether or not a diversity handover is being performed in order to control transmission power of a data transmission channel; ,
A transmission power control unit for controlling the transmission power of the control information transmission channel;
A data transmission power control unit for controlling the transmission power of the data transmission channel separately from the transmission power of the control information transmission channel controlled by the transmission power control unit from the command received by the base station reception unit. Features.

A base station according to the present invention comprises: a base station receiving unit that receives, from a mobile communication device, power amount control information corresponding to whether or not a diversity handover is being performed in order to control transmission power of a data transmission channel; ,
A correction table in which the type of command received by the base station receiving unit and the power correction amount for transmitting the data transmission channel signal are stored in association with each other;
A correction unit that selects a power correction amount corresponding to a command received by the base station reception unit from the correction table;
And a data transmission power control unit that corrects the transmission power amount of the data transmission channel from the power correction amount selected by the correction unit.

The base station according to the present invention receives, as a command, power amount control information corresponding to whether or not it is a diversity handover in order to control the transmission power of the data transmission channel, and controls the transmission power. A base station receiver that receives from the mobile communication device as a flag the power amount control information for
A data transmission power control unit that controls an amount of power for transmitting a data transmission channel signal from a command and a flag received by the base station reception unit.

A communication system according to the present invention is a communication system having a plurality of base stations and mobile communication devices,
The mobile communication device receives a plurality of control information transmission channel signals transmitted from the plurality of base stations as a plurality of control information,
Based on a plurality of control information received by the mobile receiver, an estimation unit that estimates communication quality related to a plurality of control information as a quality estimation value;
A command generation unit that generates, as a command, power amount control information corresponding to whether or not it is during a diversity handover in order to control transmission power of a data transmission channel signal based on a quality estimation value estimated by the estimation unit; With
At least one of the plurality of base stations includes a base station receiving unit that receives a command transmitted from the mobile communication device;
A transmission power control unit for controlling the transmission power of the control information transmission channel;
A data transmission power control unit for controlling the transmission power of the data transmission channel separately from the transmission power of the control information transmission channel controlled by the transmission power control unit from the command received by the base station reception unit. Features.

The mobile communication method according to the present invention receives a plurality of control information transmission channel signals transmitted from a plurality of base stations as a plurality of control information,
Based on the received plurality of control information, the communication quality related to the plurality of control information is estimated as a quality estimation value,
Based on the estimated quality estimation value, power amount control information corresponding to whether or not a diversity handover is being performed is generated as a command in order to control the transmission power of the data transmission channel.

The mobile communication program according to the present invention includes a process of receiving a plurality of control information transmission channel signals transmitted from a plurality of base stations as a plurality of control information,
Based on the plurality of received control information, a process for estimating communication quality related to the plurality of control information as a quality estimation value,
Based on the estimated quality estimation value, a process for generating, as a command, power amount control information corresponding to whether or not a diversity handover is in order to control transmission power of a data transmission channel.

The base station communication method according to the present invention receives, as a command, power amount control information corresponding to whether or not it is a diversity handover in order to control the transmission power of a data transmission channel from a mobile communication device,
Control the transmission power of the control information transmission channel,
The transmission power of the data transmission channel is controlled separately from the transmission power of the control information transmission channel controlled from the received command.

The base station communication program according to the present invention is a process for receiving, from a mobile communication device, power amount control information corresponding to whether or not a diversity handover is being performed in order to control transmission power of a data transmission channel,
A process for controlling the transmission power of the control information transmission channel;
The present invention is characterized in that the transmission power of the data transmission channel is controlled separately from the transmission power of the control information transmission channel to be controlled from the received command.

  The mobile communication device of the present invention can generate feedback information for controlling the transmission power amount of downlink transmission data.

  The mobile communication device of the present invention can generate feedback information based on a predetermined table.

  In addition, the mobile communication device of the present invention can generate information for determining whether the data transmission power control unit is performing diversity handover.

  Also, the base station of the present invention can control the amount of downlink transmission power using feedback information received from a mobile communication device.

  Further, the base station of the present invention can control the downlink transmission power amount by using the correction table.

  Moreover, the present invention can construct a system that can control the amount of downlink transmission power.

Embodiment 1 FIG.
The first embodiment will be described below.
FIG. 1 is a diagram for explaining the operation of the present embodiment.
The same components that perform the same operations as those of the configuration of the conventional example shown in FIG. 14 are denoted by the same reference numerals.
1 indicates a downlink channel for transmitting data from the base station 10 to the mobile station 20 as described above. In 3GPP (3rd Generation Partnership Project), PDSCH (Physical Downlink Shared Channel) corresponds to downlink channel 1.
2 indicates a channel associated with the downlink channel 1 as described above. In 3GPP, DPCH corresponds to an associated channel.

FIG. 1 shows transmission / reception between the base station 10 and the mobile station 20 during DHO. In order to enable seamless transmission / reception of data between the base station 10 and the mobile station 20 in the process in which the mobile station 20 approaches the cell edge of the base station 10a and moves to the cell edge of the base station 10b, the mobile station 20 It is necessary to receive the associated channel 2 with sufficient transmission power from the station 10a and the base station 10b. The operation will be described next.
In FIG. 1, the base station 10 a transmits and receives with the mobile station 20. That is, the data transmission power control unit 19 of the base station 10 a transmits transmission data using the downlink channel 1. The physical channel unit 25 of the mobile station 20 receives the transmitted transmission data. The base station 10 a also transmits control information to the mobile station 20 through the associated channel 2 associated with the downlink channel 1. The mobile station 20 receives the transmitted control information.
The base station 10 b transmits control information to the mobile station 20. That is, the transmission power control unit 12b of the base station 10b transmits control information using the associated channel 2, and the mobile station 20 receives the transmitted control information. Here, the control information is extracted from the PILOT signal power in the DPCCH transmitted by the transmission power control unit 12a.

Operation of mobile station 20.
The downlink channel quality estimation unit 22 of the mobile station 20 estimates SIR1 based on the control information transmitted by the transmission power control unit 12a. Moreover, the downlink channel quality estimation part 22 estimates SIR2 based on the control information which the transmission power control part 12b transmitted. Here, in FIG. 1, the SIR is estimated from the base station 10a and the base station 10b at the time of DHO, but the base station 10 is not limited to the base station 10a and the base station 10b, and there may be a plurality of base stations. In that case, the downlink channel quality estimation unit 22 estimates the SIR for the plurality of base stations. The SIR is an example of a quality estimation value, and the quality estimation value is not limited to the SIR as long as the channel quality can be estimated.

Next, a method in which the downlink channel quality estimation unit 22 generates the TPC command 35 and the command 36 using SIR will be described.
FIG. 2 is an internal block diagram of the downlink channel quality estimation unit 22. FIG. 2 shows an operation in which the downlink channel quality estimation unit 22 generates the TPC command 35 and the command 36.
As described above, the estimation unit 23 in the downlink channel quality estimation unit 22 estimates SIR1 from the control information extracted from the PILOT signal power of the associated channel 2 (DPCH: # BTS1) by the transmission power control unit 12a of the base station 10a. (Channel estimation: S23). Similarly, the estimation unit 23 estimates SIR2 from the control information extracted from the PILOT signal power of the associated channel 2 (DPCH: # BTS2) by the transmission power control unit 12b of the base station 10b (channel estimation: S24).

Next, an operation for generating the TPC command 35 will be described. The TPC command 35 is a flag indicating transmission power control information of the associated channel 2 that transmits downlink control information.
This operation is shown in the upper part of FIG. The flag generation unit 24 in the downlink channel quality estimation unit 22 generates a TPC command 35 as a flag.
First, the flag generation unit 24 combines SIR1 and SIR2 estimated by the estimation unit 23. In FIG. 2, addition is taken as a synthesis method of SIR1 and SIR2 (S25).
The combined value of SIR1 and SIR2 is compared with the target SIR (target SIR) (S26). Here, the target SIR is a quality reference value indicating the quality reference level of the normal signal power and the interference signal power of the associated channel 2, and is set in advance or set from an upper layer.
If the combined value of SIR1 and SIR2 is larger than the target SIR, the TPC command 35 becomes 0 (S27). On the other hand, when the combined value of SIR1 and SIR2 is equal to or smaller than the target SIR, the TPC command 35 becomes 1 (S27). The TPC command 35 means that when the value is 0, the transmission power amount of the associated channel 2 is decreased by a certain amount, and when it is 1, the transmission power amount of the associated channel 2 is increased by a certain value. .
The generated TPC command 35 is assembled into the TPC 34 of the upstream DPCCH format 30 as shown in FIG. The TPC 34 can take a plurality of bits, but is used as 1-bit information in the base station 10.

Next, an operation for generating the command 36 will be described.
This operation is shown in the lower part of FIG. The command 36 is generated by the command generator 28 in the downlink channel quality estimator 22. The command 36 has transmission power control information of the downlink channel 1 corresponding to whether or not it is DHO in order to control transmission power of downlink transmission data. With this command 36, it is possible to control the transmission power of the downlink channel 1 corresponding to the normal time (non-DHO time) and the DHO time.
First, the command generation unit 28 obtains the ratio of SIR1 and SIR2 from SIR1 and SIR2 obtained by the estimation unit 23 in channel estimation (S23, S24) (S20).
Next, when the ratio (SIR1 / SIR2) between SIR1 and SIR2 is 1 or less, the command generator 28 determines the command 36 as 0. If SIR1 / SIR2 is greater than 1, command 36 is determined to be 1. The determined command 36 is assembled into the FBI 33 of the uplink DPCCH format 30 shown in FIG. 3 and transmitted to the base station 10a and the base station 10b using the uplink channel 3. However, the field for assembling the command 36 is not limited to the FBI 33 and may be another field permitted to be used in the upstream DPCCH format 30.
FIG. 5 is a table showing the relationship between the SIR ratio 52 and the command 36. When the command 36 determined as described above is 0, it indicates that DHO is being performed, and when the command 36 is 1, it indicates that DHO is not being performed (non-DHO).

FIG. 4 is a diagram illustrating another method for the command generation unit 28 to generate the command 36.
In FIG. 4 and FIG. 2, the same number is attached | subjected to the thing of the same structure. That is, the operations of the estimation unit 23 and the flag generation unit 24 in FIG. 2 are the same as those in FIG.
The command generation unit 28 calculates the ratio of SIR1 and SIR (S20), and refers to the table from the calculated ratio SIR1 / SIR2, and determines the command 36 to be assembled in the FBI field (S41). The contents of this table are shown in FIG.
The table shown in FIG. 7 may be held in the mobile station 20 or referred to when the mobile station 20 generates the command 36 from the SIR ratio 52. FIG. 7 is an example of a table in which SIRs that are a plurality of quality estimation values and the types of commands 36 are stored in association with each other, as in FIG. When the SIR ratio 52 is 1/1, the command 36 is 00. If the SIR ratio 52 is 2/1 or 1/2, the command 36 is 01. The command 36 is 10 when the SIR ratio 52 is 3/1 or 1/3. If the SIR ratio 52 is other than the value described above, the command 36 is 11. When the command 36 has a value of 00, 01 or 10, it is in DHO. When the command 36 is 11, it is a non-DHO time.
In FIG. 7, when the SIR ratio 52 is 1/1, the command 36 is set by estimating the interference ratio to 0.7 to 1.5. Similarly, when the SIR ratio 52 is 1/2, the interference ratio is estimated to be 0.4 to 0.7, and when the SIR ratio 52 is 1/3, the interference ratio is 0.3 to 0.4. When the SIR ratio 52 is 2/1, the interference ratio is estimated to be 1.5 to 2.5. When the SIR ratio 52 is 3/1, the interference ratio is 2.5 to 3.5. Estimated. When the SIR ratio 52 takes the above values, it is determined that DHO is in progress and the command 36 is set.
Thus, the command 36 can take four values. In this case, not only can it be determined whether or not it is DHO by the command 36, but the command 36 can be set to a different value by the SIR ratio 52. Can be changed. In addition, the command 36 value can be set to other than binary or quaternary by the SIR ratio 52.

As described above, the mobile station 20 as the mobile communication device shown in the present embodiment first receives a plurality of control information transmitted from a plurality of base stations 10. The estimation unit 23 estimates SIR that is a quality estimation value based on the received plurality of control information.
Based on the estimated plurality of SIRs, the command generation unit 28 generates transmission power control information corresponding to whether or not it is DHO as a command 36 in order to control transmission power of downlink transmission data. Assemble in FBI33 field. The command 36 assembled on the DPCCH is transmitted to the plurality of base stations 10 using the uplink channel 3.
In this way, the mobile station 20 of the present embodiment can transmit the control information of the data transmission power amount of the downlink channel 1 corresponding to whether or not it is DHO to the base station 10 as the command 36.
In addition, the mobile station 20 of the present embodiment uses an FBI 33 area, which is a feedback information area in a transmission format (uplink DPCCH format 30) for transmitting uplink control information that has not been considered for the purpose of use in the past. The command 36 can be transmitted to each base station 10 by using it.

Further, as described above, as a command generation method generated by the command generation unit 28 of the mobile station 20, the SIR ratio is calculated from the SIR as a plurality of estimated quality estimates, and the calculated SIR ratio (SIR1 / SIR2) There is a method for generating the command 36 based on the above.
As described above, by generating the command 36 based on the SIR ratio, the mobile station 20 uses the control information of the data transmission power amount of the downlink channel 1 that more accurately reflects whether or not the DHO is being performed as the command 36. The base station 10 can be notified.
In addition, since the command 36 is generated based on the ratio of SIRs instead of combining a plurality of SIRs, the mobile station 20 can generate a command 36 having more accurate information on whether or not it is in DHO. .

Further, as described above, the flag generation unit 24 combines a plurality of SIRs estimated based on the received plurality of control information, compares the combined plurality of SIRs with the target SIR, and based on the comparison result. To generate a TPC command 35.
By transmitting the TPC command 35 generated in this way and the command 36 generated by the command generation unit 28 to the base station 10, the mobile station 20 obtains information indicating whether it is DHO time from the command 36. Can let you know. Therefore, it is possible to determine whether or not it is DHO time using the command 36, and to inform the base station 10 of information on how to control the transmission power amount of the downlink channel 1 using the TPC command 35.
In addition, since the command 36 is generated using the result of SIR estimation that has been conventionally performed to generate the TPC command 35, a part of hardware and software for generating the TPC command 35 is used as it is. The increase in the physical volume and weight of the mobile station 20 can be prevented.

Operation of base station 10.
Next, an operation in which the base station 10 receives the command 36 from the mobile station 20 and performs power control of the downlink channel 1 that transmits transmission data will be described. An operation in which the base station 10 performs power control of the downlink channel 1 is shown in FIG.
The DPCCH having the command information is transmitted to the base station 10a by using the uplink channel 3 by the DPCCH unit 21g and also transmitted to the base station 10b. The DPCCH unit 11a of the base station 10a and the DPCCH unit 11c of the base station 10b Receive.
The base station 10a sends the TPC command 35 assembled to the TPC 34 in the DPCCH to the transmission power control unit 12a. In addition, the base station 10a sends the command 36 assembled to the FBI 33 in the DPCCH to the correction unit 18. In addition, the base station 10b sends a TPC command 35 assembled in the DPCCH to the transmission power control unit 12b.
The TPC commands 35 sent to the transmission power control unit 12a and the transmission power control unit 12b are used to control the associated channel 2 that transmits downlink control information.

The correction unit 18 that has received the command 36 assembled in the FBI 33 corrects the transmission power amount of the downlink channel 1 when the data transmission power control unit 19 transmits transmission data using the command 36 information.
6 and 8 show examples of correction tables in which the type of command 36 and the power correction amount for transmitting downlink transmission data are stored in association with each other. The base station 10a holds a correction table as shown in FIG. 6 or FIG. 8 in advance or ensures a state where it can be referred to. The correction unit 18 calculates a correction amount from the correction table and the command 36.
In FIG. 6, when the command 36 is 0, the correction amount 64 is 3 dB. When the command 36 is 1, the correction amount 64 is set to 0 dB. These correction amounts 64 are sent to the data transmission power control unit 19. Therefore, when the command 36 is 0, 3 dB is added to the transmission power amount that the data transmission power control unit 19 shown in FIG. 1 has transmitted transmission data before correction. Then, transmission data is transmitted to the mobile station 20 using the downlink channel 1 with the corrected power amount.
Since the correction amount 64 is 0 when the command 36 is 1, the data transmission power control unit 19 holds the power amount of the downlink channel 1 at the current transmission power amount.
As shown in FIG. 8, the operation of the correction unit 18 when the command 36 has four values will be described. The correction amount 64 is 3 dB when the command 36 is 00, the correction amount 64 is 2 dB when the command 36 is 01, the correction amount 64 is 1 dB when the command 36 is 10, and the command 36 is 11 In this case, the correction amount 64 is 0 dB.

As described above, the correction unit 18 of the base station 10 uses the correction table in which the type of the command 36 and the power correction amount of the downlink channel 1 are stored in association with each other, and the downlink channel is transmitted from the command 36 received from the mobile station 20. It becomes possible to correct the data transmission power amount of 1.
Therefore, conventionally, during DHO, the downlink channel 1 for which transmission power control is performed by the data transmission power control unit 19 is controlled in the same way as in normal time even during DHO. Therefore, the downlink channel 1 cannot obtain a diversity gain, and the transmission power of the downlink channel 1 is extremely reduced when the DHO is performed, and the quality of transmission data transmitted using the downlink channel 1 is deteriorated. However, as in the present embodiment, the command 36 information having the power control information of the downlink channel 1 corresponding to the DHO is given to the FBI 33 field on the uplink DPCCH format 30, and the downlink channel 1 is determined from the command 36 and the correction table. Thus, the quality of the downlink channel 1 can be maintained at a certain value or higher. Therefore, the user of the mobile station 20 can receive the transmission data from the base station 10 in a clear form without causing noise even during DHO.

Next, an operation in which the base station 10 receives the TPC command 35 and the command 36 from the mobile station 20 and performs power control of the downlink channel 1 that transmits transmission data will be described. An operation in which the base station 10 performs power control of the downlink channel 1 is shown in FIG.
The correction unit 18 acquires the TPC command 35 and the command 36 received by the DPCCH unit 11a. The correction unit 18 makes an agreement shown in FIG. 5 with respect to the meaning of the command 36 with the mobile station 20 in advance. In this case, if the command 36 is 0, the correction unit 18 determines that DHO is being performed, and sets the power correction amount of the downlink channel 1 separately from the transmission power amount control information indicated by the TPC command 35. When the value of the command 36 is 1, the correction unit 18 determines that the non-DHO is being performed and sets the correction amount of the downlink channel 1 power amount to 0.
The data transmission power control unit 19 performs transmission power control of the downlink channel 1 according to the correction amount by the correction unit 18. That is, when the command 36 is 1, the data transmission power control unit 19 performs power control of the downlink channel 1 according to the transmission power amount control information indicated by the TPC command 35. When the command 36 is 0, if the power control of the downlink channel 1 is performed according to the control information of the TPC command 35, the transmission power amount of the downlink channel 1 is extremely reduced because it is DHO. Therefore, the data transmission power control unit 19 adds the correction amount set by the correction unit 18 to the transmission power amount of the downlink channel 1 to prevent an extreme decrease in the transmission power amount of the downlink channel 1.
By such power control of the downlink channel 1 of the data transmission power control unit 19, the base station 10 can ensure a predetermined quality of the downlink channel 1 even during DHO. When the correcting unit 18 makes an agreement with the mobile station 20 regarding the meaning of the command 36 based on FIG. 7, the correcting unit 18 sets a finer correction amount based on FIG. 8 than in the above case. Since it can be set, the data transmission power control unit 19 can perform transmission power control of the downlink channel 1 more accurately than in the above case.

Embodiment 2. FIG.
Next, a second embodiment will be described.
FIG. 10 shows a configuration diagram of the present embodiment. The same components as those shown in FIG.
Operation of mobile station 20.
The downlink channel quality estimation unit 22 of the mobile station 20 generates a TPC command 35 and a command 36 by the method shown in FIG. Since it is not necessary to generate the command 36 by the method shown in FIG. 4, the mobile station 20 does not need to maintain or refer to the table as shown in FIG. The DPCCH obtained by assembling the TPC command 35 and the command 36 is transmitted by the DPCCH unit 21a to the DPCCH unit 11a of the base station 10a and the DPCCH unit 11c of the base station 10b using the uplink channel. The transmission power control unit 12 a controls the transmission power amount of the associated channel 2 from the DPCCH TPC command 35. The data transmission power control unit 19 controls the transmission power amount of the downlink channel 2 from the DPCCH TPC command 35 and the command 36.

FIG. 11 is a diagram illustrating an operation performed by the downlink channel quality estimation unit 22 illustrated in FIG. The TPC command 35 is the same as the generation method described with reference to FIG.
A command generation method of the command generation unit 28 shown in the lower part of FIG. 11 will be described.
First, the maximum values of SIR1 and SIR2 estimated by the estimation unit 23 are selected (S101). The maximum value is compared with a predetermined target SIR (S102). When the maximum value is larger than the target SIR, the command 36 is set to 0 (S103). If the maximum value is less than or equal to the target SIR, the command 36 is set to 0 (S103).
Thus, the generated command 36 is assembled into the DPCCH together with the TPC command 35, and is transmitted to the DPCCH unit 11a of the base station 10a and the DPCCH unit 11c of the base station 10b.

Operation of base station 10.
10, unlike the configuration of FIG. 1, the correction unit 18 is not provided.
The data transmission power control unit 19 acquires the TPC command 35 and the command 36 received by the DPCCH unit 11a. If the command 36 is 0, the data transmission power control unit 19 determines that DHO is in progress, and increases the downlink channel 1 power amount by a predetermined amount separately from the transmission power amount control information indicated by the TPC command 35. The transmission data is transmitted to the mobile station 20. When the value of the command 36 is 1, the data transmission power control unit 19 determines that the non-DHO is being performed, and according to the transmission power amount control information indicated by the TPC command 35, similarly to the power control of the associated channel 2. Power control of downlink channel 1 is performed.
By such power control of the downlink channel 1 of the data transmission power control unit 19, appropriate transmission power control of the downlink channel 1 is possible even during DHO, and the quality of the downlink channel 1 can always be secured above a certain level. .
The transmission power control unit 12a controls the transmission power amount of the associated channel 2 from the TPC command 35 received from the mobile station 20.

In this way, the base station 10 controls the transmission power amount of the downlink channel 1 using not only the TPC command 35 but also the command 36. Therefore, even when the transmission power control unit 12a decreases the transmission power amount of the associated channel 2 in order to obtain diversity gain during DHO, the downlink channel 1 is not affected by the decrease in the transmission power amount of the associated channel 2. The amount of power in channel 1 can be controlled. Therefore, it is possible to avoid the quality of the downlink channel 1 from being lowered below a certain value.
Moreover, in this Embodiment, since the base station 10a does not need to have a correction table and the correction | amendment part 18, the improvement of the processing efficiency of the base station 10a is achieved.

  As described above, the command generation unit 28 of the mobile station 20 obtains the maximum value from the plurality of SIRs estimated based on the received plurality of control information. Then, the maximum value of the obtained SIR is compared with the target SIR that is the quality reference value, and a command 36 is generated based on the comparison result. The generated command 36 is assembled into the FBI 33 field in the uplink DPCCH format 30 of the DPCCH 21 a and transmitted to the base station 10. The data transmission power control unit 19 of the base station 10 can control the power amount of the downlink channel 1 using the received command 36 and the TPC command 35 so as not to deteriorate the quality of the downlink channel 1.

Embodiment 3 FIG.
Next, Embodiment 3 will be described.
FIG. 12 shows a configuration diagram of the present embodiment. The same components as those shown in FIG.
As shown in FIG. 13, the present embodiment shows an implementation in which the configuration of the downlink channel quality estimation unit 22 shown in the second embodiment described above is two systems.
The upper part of FIG. 13 shows a generation method for generating the TPC command 35. This is the same as the method of generating the TPC command 35 in FIG.
The latter part of FIG. 13 shows means for generating the command 36. The lower estimator 23b of FIG. 13 estimates channel estimation, that is, SIR1a from the information of downlink channel 1 (PDSCH # BTS1) from the base station 10a (S120). In addition, channel estimation, that is, SIR2a is estimated from information of downlink channel 1 (PDSCH # BTS2) sent by the data transmission power control unit of the base station 10b (S121).
Next, the maximum value is selected from SIR1a and SIR2a estimated in this way (S122).
Next, the selected maximum value is compared with the target SIRa (S123), and a command 36 is generated based on the comparison result (S124).

Thus, by using the information of the downlink channel 1 (PDSCH # BTS1, PDSCH # BTS2) instead of the information of the associated channel 2 (DPCH # BTS1, DPCH # BTS2) to generate the command 36 to be assembled in the FBI33 field. A command 36 is generated. That is, in this embodiment, the command generation unit 28 of the mobile station 20 generates the command 36 as a system different from the system that generates the TPC command 35 that controls the transmission power amount of the associated channel 2 at the time of DHO. Therefore, the mobile station 20 can notify the base station 10 of the transmission power control information of the downlink channel 1 as the command 36 based on the control information (PDSCH) of the downlink channel 1.
In addition, even when a failure occurs in the system of the flag generation unit 24 shown in the upper part of FIG. 13, the command generation unit 28 shown in the lower part of FIG. 13 can be operated regardless of the failure. Therefore, even when the generation of the TPC command 35 is temporarily stopped for some reason, the mobile station 20 uses the downlink channel 1 control information (PDSCH) to guarantee the quality maintenance of the downlink channel 1. The base station 10 can be notified.

The operation in which the data transmission power control unit 19 of the base station 10 controls the downlink channel 1 using the TPC command 35 and the command 36 is the same as that in the second embodiment, and thus the description thereof is omitted.
As described above, the base station 10 receives information based on the control information of the downlink channel 1 from the mobile station 20 as the command 36, and can perform power control that ensures the quality maintenance of the downlink channel 1. Even when the generation of the TPC command 35 is temporarily stopped for some reason, it is possible to receive the command 36 for controlling the power amount of the downstream channel 1 regardless of the power control information of the associated channel 2, The downlink channel 1 power control that is strong and accurate can be achieved.

As described above, the mobile station 20 is described in the embodiment, but the mobile station 20 corresponds to a mobile device such as a mobile phone, a mobile information terminal, a notebook personal computer, an Internet terminal, and a mobile information watch.
In all the embodiments described above, each operation of each component is related to each other, and the operation of each component is replaced as a series of operations in consideration of the relationship between the operations described above. Can do. And it can be set as embodiment of method invention by replacing in this way.
Further, by replacing the operation of each component described above with the process of each component, the program can be implemented. All of these embodiments can be configured by a computer-operable program. Each process in the embodiment of the program is executed by the program, but this program is recorded in the recording device, read from the recording device to the central processing unit (CPU), and each flowchart is executed by the central processing unit. Will be. Note that the recording device and the central processing unit are not shown.
In addition, the software and program of each embodiment may be realized by firmware stored in a ROM (READ ONLY MEMORY). Or you may implement | achieve each function of the program mentioned above with the combination of software, firmware, and hardware.

1 is a system configuration diagram according to Embodiment 1. FIG. It is a figure which shows the method of producing | generating a TPC command and a command. It is a figure which shows an uplink DPCCH format. It is a figure which shows the method of producing | generating a TPC command and a command. It is a correspondence table of SIR ratio and command value. It is a correspondence table of commands and correction amounts. It is a correspondence table of SIR ratio and command value. It is a correspondence table of commands and correction amounts. FIG. 3 is another system configuration diagram of the first embodiment. FIG. 3 is a system configuration diagram of a second embodiment. It is a figure which shows the method of producing | generating a TPC command and a command. FIG. 6 is a system configuration diagram of a third embodiment. It is a figure which shows the method of producing | generating a TPC command and a command. It is the figure which showed the prior art example.

Explanation of symbols

  10 base station, 11, 21 DPCCH unit, 12, 131 transmission power control unit, 13 modulation unit, 14, 25 physical channel unit, 15 encoding unit, 18 correction unit, 19, 130 data transmission power control unit, 20 mobile station , 22 downlink channel quality estimation unit, 23 estimation unit, 24 flag generation unit, 28 command generation unit, 30 uplink DPCCH format, 31 PILOT, 32 TFCI, 33 FBI, 34 TPC, 35 TPC command, 36 command, 52 SIR ratio, 64 Correction amount.

Claims (17)

A mobile receiver that receives a plurality of control information transmission channel signals transmitted from a plurality of base stations as a plurality of control information;
Based on a plurality of control information received by the mobile receiver, an estimation unit that estimates communication quality related to a plurality of control information as a quality estimation value;
A command generation unit that generates, as a command, power amount control information corresponding to whether or not it is a diversity handover in order to control the transmission power of the data transmission channel based on the quality estimation value estimated by the estimation unit; A mobile communication device comprising: The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The command generation unit calculates a ratio of each quality estimation value from a plurality of quality estimation values estimated by the estimation unit, and generates a command based on the calculated ratio of each quality estimation value. 1. A mobile communication device according to 1. The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The mobile communication device further synthesizes a plurality of quality estimation values estimated by the estimation unit, and indicates a reference level determined for interference between the synthesized values of the plurality of synthesized quality estimation values and control information during communication The mobile communication device according to claim 1, further comprising: a flag generation unit that compares a quality reference value and generates, as a flag, power amount control information for controlling transmission power based on the comparison result. The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The mobile communication device further includes a table in which a plurality of quality estimation values estimated by the estimation unit and a command type generated by the command generation unit are stored in association with each other.
The mobile communication device according to claim 1, wherein the command generation unit selects a corresponding command from the table based on a plurality of quality estimation values estimated by the estimation unit. The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The command generation unit selects a maximum value of the quality estimation value from a plurality of quality estimation values estimated by the estimation unit, and a reference level determined for interference between the selected maximum value of the quality estimation value and control information during communication The mobile communication device according to claim 1, wherein a command is generated based on a comparison result with a quality reference value indicating The mobile communication device according to claim 1, wherein the command generation unit assembles the generated command into a feedback information area in a transmission format for transmitting uplink control information. A mobile receiver that receives a plurality of data transmission channel signals transmitted from a plurality of base stations as a plurality of control information;
Based on a plurality of control information received by the mobile receiver, an estimation unit that estimates communication quality related to a plurality of control information as a quality estimation value;
A command generation unit that generates, as a command, power amount control information corresponding to whether or not it is during a diversity handover in order to control transmission power of a downlink channel based on the quality estimation value estimated by the estimation unit. A mobile communication device characterized by the above. The estimation unit estimates a plurality of quality estimation values based on a plurality of control information,
The command generation unit selects a maximum value of the quality estimation value from a plurality of quality estimation values estimated by the estimation unit, and a reference level determined for interference between the selected maximum value of the quality estimation value and control information during communication The mobile communication device according to claim 7, wherein a command is generated based on a comparison result with a quality reference value indicating A base station receiving unit that receives, as a command, power amount control information corresponding to whether it is a diversity handover in order to control transmission power of a data transmission channel, from a mobile communication device;
A transmission power control unit for controlling the transmission power of the control information transmission channel;
A data transmission power control unit for controlling the transmission power of the data transmission channel separately from the transmission power of the control information transmission channel controlled by the transmission power control unit from the command received by the base station reception unit. Feature base station. A base station receiving unit that receives, as a command, power amount control information corresponding to whether it is a diversity handover in order to control transmission power of a data transmission channel, from a mobile communication device;
A correction table in which the type of command received by the base station receiving unit and the power correction amount for transmitting the data transmission channel signal are stored in association with each other;
A correction unit that selects a power correction amount corresponding to a command received by the base station reception unit from the correction table;
A base station comprising: a data transmission power control unit that corrects the transmission power amount of the data transmission channel from the power correction amount selected by the correction unit. In order to control the transmission power of the data transmission channel, power amount control information corresponding to whether or not it is during diversity handover is received as a command from the mobile communication device, and power amount control information for controlling the transmission power is received. A base station receiver that receives from a mobile communication device as a flag;
A base station comprising: a data transmission power control unit that controls an amount of power for transmitting a data transmission channel signal from a command and a flag received by the base station reception unit. A communication system having a plurality of base stations and mobile communication devices,
The mobile communication device receives a plurality of control information transmission channel signals transmitted from the plurality of base stations as a plurality of control information,
Based on a plurality of control information received by the mobile receiver, an estimation unit that estimates communication quality related to a plurality of control information as a quality estimation value;
A command generation unit that generates, as a command, power amount control information corresponding to whether or not it is during a diversity handover in order to control transmission power of a data transmission channel signal based on a quality estimation value estimated by the estimation unit; With
At least one of the plurality of base stations includes a base station receiving unit that receives a command transmitted from the mobile communication device;
A transmission power control unit for controlling the transmission power of the control information transmission channel;
A data transmission power control unit for controlling the transmission power of the data transmission channel separately from the transmission power of the control information transmission channel controlled by the transmission power control unit from the command received by the base station reception unit. A featured communication system. Receiving a plurality of control information transmission channel signals transmitted from a plurality of base stations as a plurality of control information,
Based on the received plurality of control information, the communication quality related to the plurality of control information is estimated as a quality estimation value,
Based on the estimated quality estimation value, a mobile communication characterized by generating, as a command, power amount control information corresponding to whether or not a diversity handover is in order to control transmission power of a data transmission channel Method. A process of receiving a plurality of control information transmission channel signals transmitted from a plurality of base stations as a plurality of control information;
Based on the plurality of received control information, a process for estimating communication quality related to the plurality of control information as a quality estimation value,
Mobile communication characterized by generating, as a command, power amount control information corresponding to whether or not it is a diversity handover in order to control transmission power of a data transmission channel based on the estimated quality estimation value program. In order to control the transmission power of the data transmission channel, the power amount control information corresponding to whether or not it is at the time of diversity handover is received as a command from the mobile communication device,
Control the transmission power of the control information transmission channel,
A base station communication method, comprising: controlling transmission power of a data transmission channel separately from transmission power of the control information transmission channel to be controlled from the received command. A process of receiving, as a command, power amount control information corresponding to whether or not it is a diversity handover in order to control the transmission power of the data transmission channel from the mobile communication device,
A process for controlling the transmission power of the control information transmission channel;
A base station communication program characterized by processing for controlling transmission power of a data transmission channel separately from transmission power of a control information transmission channel to be controlled from the received command. At the time of diversity handover in order to control the transmission power of the data transmission channel based on a plurality of quality estimation values respectively corresponding to the control information estimated based on a plurality of control information received from a plurality of base stations. A mobile communication device that generates, as a command, electric energy control information corresponding to whether or not there is.

Images