JP2002010362A - Base station apparatus, mobile station device and communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent communication failures by instructing a correct data transmission rate to a mobile station device after recognizing errors of requests of a data transmission rate from the device at a base station apparatus, when a communication using a shared channel is proceeded. SOLUTION: At a base station apparatus 101, a radio resource controller 212 selects the mobile station device based on request of the data transmission rate received from plural mobile station devices, an individual channel coding part 209 adds destination address information for the selected devices on a transmission data to the selects device, and at an error measuring part 213 of a down link channel, and error rate of the data transmission to the device is acquired according to an error detecting result received from the device, then if the error rate is more than a threshold, a rate change requesting part 214 judges that the request values are in errors, so that a change instruction is proceeded to reduce the values to the device that transmitted the values.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a base station apparatus in a mobile communication system, a mobile phone for performing wireless communication with the base station apparatus, and a mobile communication terminal having a mobile phone function and a computer function. The present invention relates to a station device and a communication method, and particularly to a CDMA (Code Division).
HD using a different frequency from the normal operating frequency applied to the Multiple Access (2000) system
The present invention relates to a communication method and a base station apparatus and a mobile station apparatus using a shared channel (described later) in R.

[0002]

2. Description of the Related Art A shared channel means that a plurality of mobile station apparatuses use the same frequency at which a data transmission rate (hereinafter referred to as a rate) can be changed at any time, and only one mobile station apparatus selected by a base station apparatus is used. It is for communicating at a frequency.

That is, in a conventional mobile communication system using a shared channel, first, a plurality of mobile station apparatuses receive a pilot burst signal (downlink known symbol) transmitted from a base station apparatus.

[0004] Next, each mobile station apparatus performs C / I (Carrier Inte- lage) from the received pilot burst signal.
reference: carrier signal power / interference signal power)
Is measured. Next, the highest rate that can be assigned to the downlink from the base station apparatus to the mobile station apparatus is determined according to the C / I measurement result.

[0005] The request value of the determined rate is transmitted to the base station apparatus. Transmission of the rate request value is executed at the same timing from all mobile station devices in the communication area.

[0006] The base station apparatus that has received each rate request value,
The mobile station device of the transmission partner requesting the highest rate is selected, and data is transmitted at the rate of the rate request value received from the selected mobile station device.

As a mobile communication system using this type of shared channel, reference 1 (3GPP2 TSG-
C C00_1X_HDR_20000038-005
Physical Layer) and Reference 2 (“Hi
gh Speed Downlink Packet
Access ”, TSG-RAN WorkingGr
up1 meeting # 13, TSGR1 # 13
(00) 727, Tokyo, Japan, 22nd-
25th May 2000).

[0008]

However, in the conventional apparatus, according to Document 1, a CRC (Cyclic Redundancy Che) which can determine success or failure of reception on transmission data at a receiving side (base station apparatus).
ck) data is provided. However, CRC OK
Since a method for reporting / NG (correct / error) to the base station apparatus is not prepared, if the mobile station apparatus requests an incorrect rate, and if the mobile station apparatus is assigned according to the request, There is a problem that communication fails due to an error in the rate request value.

In Reference 2, ARQ (Automatic
Since Retransmission Request) is introduced, it is possible to recognize that the rate is incorrectly determined for the downlink mobile station apparatus. However, there is a problem that the rate request cannot be determined by the mobile station apparatus and reported to the base station apparatus.

[0010] Further, errors in the rate determination in the above-mentioned documents 1 and 2 have a bad influence on the throughput.

[0011] The present invention has been made in view of the above, and when performing communication using a shared channel,
A base station apparatus, a mobile station apparatus, and a communication method capable of eliminating a communication failure by instructing a correct data transmission rate to a mobile station apparatus after an error of a data transmission rate request from the mobile station apparatus is recognized by the base station apparatus. The purpose is to provide.

[0012]

According to the present invention, there is provided a base station apparatus comprising:
Means for selecting a mobile station device based on the data transmission rate request values received from the plurality of mobile station devices, and adding destination information to the selected mobile station device to transmission data to the selected mobile station device; Means for determining an error rate of data transmission to the mobile station apparatus from the error detection result received from the apparatus, and determining that the data transmission rate request value is incorrect if the error rate is equal to or greater than a threshold value. take.

According to this configuration, if the error rate is equal to or larger than the threshold value, the data transmission rate request value from the mobile station apparatus is too high, and it is recognized that data cannot be transmitted at the data transmission rate of the rate request value. Can be.

The base station apparatus of the present invention employs a configuration in which, when the error rate is equal to or greater than a threshold value, the mobile station apparatus that has transmitted the data transmission rate request value issues a change instruction to lower the data transmission rate request value. .

According to this configuration, for the mobile station device,
The data transmission rate request value at which data transmission becomes impossible
An instruction to enable data transmission can be given.

The base station apparatus according to the present invention employs a configuration in which, when the error rate is substantially zero, a change instruction to increase the data transmission rate request value is issued to the mobile station apparatus that has transmitted the data transmission rate request value.

According to this configuration, when the error rate is almost zero, the data transmission rate request value from the mobile station device is too low, and the instruction to change to the rate request value for more efficient data transmission is issued. It can be carried out.

The mobile station apparatus according to the present invention comprises: means for measuring the quality of a signal received from a base station apparatus; means for determining a data transmission rate request value according to the measured quality; The present invention employs a configuration including means for transmitting a request value to the base station apparatus, and means for changing the data transmission rate request value at the time of the determination in response to a data transmission rate request value change instruction from the base station apparatus.

According to this configuration, the data transmission rate request value to the base station device determined by the own device can be changed according to an instruction from the base station device.

The mobile communication system according to the present invention measures the quality of the signal received from the base station apparatus, detects an error, and variably determines a data transmission rate request value according to the measured quality. A mobile station transmitting the requested data transmission rate request value and the error detection result, and an error rate of data transmission to the mobile station apparatus is obtained from the error detection result received from the mobile station. If the data transmission rate request value is determined to be incorrect,
At the time of this determination, a configuration is adopted which comprises: a base station apparatus for instructing the mobile station apparatus to change the data transmission rate request value at the time of the determination.

According to this configuration, the data transmission rate at the time of data transmission from the base station device to the mobile station device can be set to a value at which transmission can be performed properly.

According to the communication method of the present invention, in the first wireless device, the quality of a received signal is measured and an error is detected, and a data transmission rate request value is determined according to the measured quality.
The determined data transmission rate request value and the error detection result are transmitted, and the second wireless device obtains an error rate of data transmission to the first wireless device from the received error detection result. Transmits an instruction to change the data transmission rate request value to the first wireless device so that the value can perform data transmission to the first wireless device properly, and the first wireless device receives the received instruction. The data transmission rate request value is changed and transmitted according to the change instruction.

According to this method, the first wireless device transmits the first wireless device to the first wireless device.
The data transmission rate at the time of transmitting data to the wireless device can be set to a value at which transmission can be performed properly.

[0024]

Embodiments of the present invention will be described below in detail with reference to the drawings.

(Embodiment) FIG. 1 is a block diagram showing a schematic configuration of a mobile communication system including a base station apparatus and a mobile station apparatus according to an embodiment of the present invention.

The base station apparatus 101 and the plurality of mobile station apparatuses 102 shown in FIG. 1 perform wireless communication using a shared channel in HDR applied to the CDMA2000 system.

As shown in FIG.
RF (Radio) having an antenna 201 for transmission and reception
Frequency (frequency)) section 202, multiplexing section 203, modulation / spreading sections 204, 205, 206, 207, despreading / demodulating section 208, and dedicated channel coding section 209.
And MAC (Medium Access Controller)
ol) channel assembly unit 210 and a TPC (Transm
it Power Control) generation unit 211,
Radio resource management section 212 and downlink error measurement section 21
3, a rate change request unit 214, a control channel assembling unit 215, and a buffer unit 216.

As shown in FIG. 3, the mobile station device 102
RF section 302 having transmitting / receiving antenna 301, despreading / demodulating section 303, CRC section 304, and decomposition section 30
5, C / I measuring section 306, and rate request value determining section 30
7, the rate request determination condition changing unit 308, and the multiplexing unit 30
9 and a modulation / spreading unit 310.

The operation of such a configuration will be described. First,
In modulation / spreading section 204 of base station apparatus 101, a carrier signal is modulated with a pilot burst signal and then spread.

The pilot burst signal after this spreading is
In the multiplexing unit 203, the signal is multiplexed with another transmission signal,
After a predetermined transmission process such as up-conversion is performed by the unit 202, the signal is wirelessly transmitted from the antenna 201.

This transmission signal is received by the antenna 301 of the mobile station apparatus 102, subjected to predetermined reception processing such as down-conversion by the RF section 302, and then subjected to the despreading / demodulation section 3.
03 is output.

The despreading / demodulating section 303 demodulates the received signal after despreading, and outputs the demodulated signal to the CRC section 304 and the C / I measuring section 306. In C / I measuring section 306, the C / I of the pilot burst signal in the demodulated received signal is
Is measured. This C / I measurement value is output to rate request value determination section 307.

The rate request value determination unit 307 selects a data transmission rate (rate) stored in advance corresponding to the C / I measurement value, and outputs the selected data transmission rate to the multiplexing unit 309 as the rate request value of the own apparatus 102.

The multiplexing section 309 multiplexes the rate request value and the transmission signal of the own apparatus 102, and modulates and spreads the carrier signal with the multiplexed signal in the modulation / spreading section 310.

The spread transmission signal is subjected to predetermined transmission processing in RF section 302 and then transmitted wirelessly from antenna 301.

[0036] This transmission signal is received by antenna 201 of base station apparatus 101, subjected to predetermined reception processing by RF section 202, and then output to despreading / demodulation section 208.

In the despreading / demodulating section 208, the received signal is demodulated after being despread, and output to the TPC generating section 211 and the radio resource managing section 212.

TPC generation section 211 generates a TPC signal for controlling the transmission power of mobile station apparatus 102 in accordance with the transmission power control pilot symbol signal included in the demodulated signal, and generates the TPC signal. After being assembled into a MAC channel by the MAC channel assembling section 210, it is output to the multiplexing section 203.

Radio resource management section 212 selects the mobile station apparatus 102 having the highest rate request value from the rate request values from all mobile station apparatuses 102 in the demodulated signal, and the selection result is stored in the buffer section. 216, output to dedicated channel coding section 209 and modulation / spreading section 205.

The selection method may be to select a mobile station device 102 that has requested a low data transmission rate so that communication with all the mobile station devices 102 is possible.

In the buffer unit 216, the transmission data to the selected mobile station apparatus 102 is read, and the read transmission data is added to the dedicated channel coding unit 2
At 09, destination information for the mobile station device 102 is added. Then, the data to which the destination information has been added is modulated by the modulation / spreading unit 205, spread, and output to the multiplexing unit 203. Each signal output to the multiplexing unit 203 is multiplexed and then transmitted from the RF unit 202.

The mobile station device 102 that has received this transmission signal
Receives the transmission data from the succeeding base station apparatus 101 when the destination information of the own apparatus 102 is received. Thereafter, the CRC unit 304 performs a CRC check on the received signal. If the CRC detection result is OK, the received signal is output to a post-processing circuit (not shown) via the decomposing unit 305. If the CRC detection result is NG,
The received signal is not output to decomposition section 305.

If the CRC detection result is NG, the NG of the CRC detection result is transmitted to the base station apparatus 101 via a circuit after the multiplexing unit 309. However, OK is also transmitted to the base station apparatus 101.

When OK or NG of the CRC detection result is received by base station apparatus 101, downlink error measuring section 21
3 is input. Downlink error measurement section 213 estimates the error rate of data transmission to mobile station apparatus 102 from the result of the CRC detection, and calculates the error rate as rate change request section 21
4 is output.

The error rate is estimated by counting the number of CRC NGs for each mobile station device 102 and for each assigned data rate. Similarly, the number of assignments is counted, and the result of dividing the number of NGs by the number of assignments is used as the error rate estimation.

When the error rate is equal to or larger than a predetermined threshold, the rate change request unit 214 determines that the rate request value from the mobile station apparatus 102 is too high, and that the rate request value is the data transmission rate used for data transmission. In this case, an instruction signal (rate change instruction signal) for lowering the rate request value is generated to the mobile station device 102.

When the error rate is almost zero, the rate request value from the mobile station device 102 is too low, and it is determined that the rate request value is too good for the data transmission rate used for data transmission. , In this case, the mobile station device 10
A rate change instruction signal for increasing the rate request value to 2 is generated.

These generated rate change instruction signals are:
The signal is output to the control channel assembling section 215, where it is assembled into a control channel, modulated by the modulation / spreading section 207, spread, and transmitted from the RF section 202 via the multiplexing section 203.

Mobile station apparatus 102 that has received this transmission signal
Then, after the CRC detection result in the CRC section 304 is OK, the received signal is output to the decomposing section 305, where the rate change instruction signal is decomposed, and the rate request determination condition changing section 308
Output to

The rate request determination condition change section 308 determines the rate request value determination section 307 according to the rate change instruction signal.
Is instructed to change the rate request value. The rate request value determination unit 307 changes the value to the rate request value according to the instruction.

That is, if the instruction is to lower the rate request value, the rate is reduced to the required rate at which data can be transmitted. If the instruction is to increase, the rate is increased to the required rate at which data can be transmitted. The rate request value is transmitted to base station apparatus 101 via a circuit after multiplexing section 309.

As described above, the base station apparatus 1 of the first embodiment
01 and the mobile station apparatus 102. The mobile station device 102 measures the quality of the signal received from the base station device 101, detects an error, determines a variable data transmission rate request value in accordance with the measured quality, and determines the determined data transmission rate request value. The base station 101 transmits the error rate of the data transmission to the mobile station apparatus from the error detection result received from the mobile station apparatus. It is determined that the rate request value is incorrect. At this time, the mobile station device 102 is instructed to change the data transmission rate request value at the time of the above determination.

Thus, the data transmission rate at the time of data transmission from the base station device to the mobile station device can be set to a value at which transmission can be performed properly, so that proper data transmission can be performed.

[0054]

As described above, according to the present invention,
When performing communication using a shared channel, it is possible to eliminate communication failures by recognizing an error in a data transmission rate request from the mobile station device to the base station device and then instructing the mobile station device of a correct data transmission rate. it can.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a schematic configuration of a mobile communication system including a base station device and a mobile station device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a base station apparatus according to the embodiment.

FIG. 3 is a block diagram showing a configuration of a mobile station apparatus according to the embodiment.

[Explanation of symbols]

Reference Signs List 101 base station device 102 mobile station device 201, 301 antenna 202, 302 RF unit 203, 309 multiplexing unit 204, 205, 206, 207, 310 modulation / spreading unit 208, 303 despreading / demodulating unit 209 individual channel coding unit 210 MAC Channel assembling section 211 TPC generating section 212 Radio resource managing section 213 Downlink error measuring section 214 Rate change requesting section 215 Control channel assembling section 216 Buffer section 304 CRC section 305 Decomposing section 306 C / I measuring section 307 Rate request value determining section 308 Rate request decision condition change unit

Continuation of the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat II (reference) H04L 1/00 H04J 13/00 D 5K067 29/08 H04L 13/00 307C F term (reference) 5K014 AA01 AA02 AA03 BA06 EA08 FA12 GA02 HA05 HA10 5K022 EE01 EE23 5K034 AA06 BB06 EE03 MM08 TT02 5K041 AA01 BB08 FF32 FF40 GG01 GG11 5K042 AA06 CA02 CA13 DA27 EA01 FA11 GA01 GA12 LA15 5K067 AA33 BB21 CC01 CC10EE27 DD45 DD01

Claims (6)

[Claims] 1. A means for selecting a mobile station apparatus based on data transmission rate request values received from a plurality of mobile station apparatuses, and adding destination information to the selected mobile station apparatus to transmission data to the selected mobile station apparatus. A means for determining an error rate of data transmission to the mobile station apparatus from an error detection result received from the mobile station apparatus, and determining that the data transmission rate request value is incorrect if the error rate is equal to or greater than a threshold, A base station device comprising: 2. The base station apparatus according to claim 1, wherein when the error rate is equal to or greater than a threshold value, the mobile station apparatus that transmitted the data transmission rate request value is instructed to change the data transmission rate request value to a lower value. . 3. The base station apparatus according to claim 1, wherein when the error rate is substantially zero, a change instruction to increase the data transmission rate request value is issued to the mobile station apparatus that transmitted the data transmission rate request value. . 4. A means for measuring the quality of a signal received from a base station apparatus, a means for determining a data transmission rate request value in accordance with the measured quality, and a method for determining the determined data transmission rate request value in the base station apparatus. And a means for changing the data transmission rate request value at the time of the determination in response to a data transmission rate request value change instruction from the base station apparatus. 5. A method for measuring a quality of a signal received from a base station apparatus, detecting an error, variably determining a data transmission rate request value according to the measurement quality, and determining the determined data transmission rate request value. And a mobile station transmitting the error detection result, and an error rate of data transmission to the mobile station is determined from the error detection result received from the mobile station. If the error rate is equal to or greater than a threshold, the data transmission rate is determined. A base station device that determines that the request value is incorrect, and at the time of this determination, issues a change instruction to the mobile station device to lower the data transmission rate request value at the time of the determination. Communications system. 6. The first wireless device measures the quality of a received signal and detects an error, determines a data transmission rate request value according to the measurement quality, and determines the determined data transmission rate request value and the data transmission rate request value. An error detection result, and an error rate of data transmission to the first wireless apparatus is determined in the second wireless apparatus from the received error detection result, and the error rate is determined by the data transmission to the first wireless apparatus. Transmits an instruction to change the data transmission rate request value to the first wireless device, so that the first wireless device responds to the data transmission rate request value in response to the received change instruction. A communication method characterized by changing and transmitting.