WO2002003739A1 - Communication terminal device, and base station device - Google Patents
Communication terminal device, and base station device Download PDFInfo
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- WO2002003739A1 WO2002003739A1 PCT/JP2001/005695 JP0105695W WO0203739A1 WO 2002003739 A1 WO2002003739 A1 WO 2002003739A1 JP 0105695 W JP0105695 W JP 0105695W WO 0203739 A1 WO0203739 A1 WO 0203739A1
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- Prior art keywords
- channel signal
- base station
- reception quality
- signal
- communication terminal
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- 238000004891 communication Methods 0.000 title claims abstract description 306
- 230000005540 biological transmission Effects 0.000 claims abstract description 121
- 238000000034 method Methods 0.000 claims description 42
- 238000005259 measurement Methods 0.000 claims description 10
- 238000012545 processing Methods 0.000 description 58
- 239000013256 coordination polymer Substances 0.000 description 56
- 101710116852 Molybdenum cofactor sulfurase 1 Proteins 0.000 description 43
- 238000010586 diagram Methods 0.000 description 37
- 238000012937 correction Methods 0.000 description 13
- 239000000284 extract Substances 0.000 description 8
- 101100545229 Saccharomyces cerevisiae (strain ATCC 204508 / S288c) ZDS2 gene Proteins 0.000 description 4
- 101100113084 Schizosaccharomyces pombe (strain 972 / ATCC 24843) mcs2 gene Proteins 0.000 description 4
- 101100167209 Ustilago maydis (strain 521 / FGSC 9021) CHS8 gene Proteins 0.000 description 4
- 239000008186 active pharmaceutical agent Substances 0.000 description 4
- 238000006243 chemical reaction Methods 0.000 description 4
- 238000010295 mobile communication Methods 0.000 description 4
- 101710116850 Molybdenum cofactor sulfurase 2 Proteins 0.000 description 3
- 239000006185 dispersion Substances 0.000 description 2
- 230000008054 signal transmission Effects 0.000 description 2
- 102100029368 Cytochrome P450 2C18 Human genes 0.000 description 1
- 101000919360 Homo sapiens Cytochrome P450 2C18 Proteins 0.000 description 1
- 206010022998 Irritability Diseases 0.000 description 1
- 238000007796 conventional method Methods 0.000 description 1
Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/14—Relay systems
- H04B7/15—Active relay systems
- H04B7/155—Ground-based stations
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/20—Arrangements for detecting or preventing errors in the information received using signal quality detector
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0002—Systems modifying transmission characteristics according to link quality, e.g. power backoff by adapting the transmission rate
- H04L1/0003—Systems modifying transmission characteristics according to link quality, e.g. power backoff by adapting the transmission rate by switching between different modulation schemes
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L1/00—Arrangements for detecting or preventing errors in the information received
- H04L1/0001—Systems modifying transmission characteristics according to link quality, e.g. power backoff
- H04L1/0009—Systems modifying transmission characteristics according to link quality, e.g. power backoff by adapting the channel coding
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/02—Terminal devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
Definitions
- the present invention relates to a communication device used in a digital mobile communication system, and particularly to a base station device and a communication terminal device used in a W-CDMA (Wide band-Code Division Multiple Access) type digital mobile communication system.
- W-CDMA Wide band-Code Division Multiple Access
- FIG. 1 is a schematic diagram showing a state of a system in which high-speed overnight communication is performed using a downlink.
- the base station apparatus 11 transmits a common known signal using a common control channel (CPI CH: Common Pilot CHannel) to communication terminal apparatuses existing in an area covered by the base station apparatus.
- base station apparatus 12 transmits a common known signal using a CPICH to a communication terminal apparatus existing in an area covered by base station apparatus 12.
- CPI CH Common Pilot CHannel
- CP ICH signal a signal communicated using the CP ICH
- DSCH Downlink Shared CHannel
- DPCH dedicated Physical CHannel
- Communication terminal apparatus 13 measures the reception quality of the CPICH signal transmitted by base station apparatus 11 and the CPICH signal transmitted by base station apparatus 12. Next, the communication terminal apparatus 13 sends the DSCH signal to the base station apparatus that transmitted the CPICH signal that was received with good quality among the base station apparatus 11 and the base station apparatus 12 (here, It is assumed that the base station device 11 is selected.
- the communication terminal apparatus 13 uses the DSCH signal based on the reception quality of the CPICH signal transmitted by the base station apparatus 11 so that the reception quality of the DSCH signal in the communication terminal apparatus 13 achieves the required quality. Possible modulation schemes and error correction code schemes are determined.
- the communication terminal apparatus 13 includes a DPCH including information for notifying the modulation scheme and the error correction coding scheme determined in this way, and information for notifying the base station apparatus 11 as a request destination of the DSCH signal. Send the signal.
- the communication terminal device 13 not only the communication terminal device 13 but also other communication terminal devices existing in the area covered by the base station device 11 and the area covered by the base station device 12 transmit the DPCH signal according to the above-described procedure. Send.
- the base station device 11 and the base station device 12 receive the DPCH signal transmitted by the communication terminal device including the communication terminal device 13, and recognize the communication terminal device requesting the own station for the DSCH signal. I do. Further, base station apparatus 12 and base station apparatus 12 transmit downlink signals based on the notified modulation scheme and error correction coding scheme among communication terminal apparatuses requesting transmission of the DSCH signal to their own stations. (Ie, DSCH) is good, and the downlink service request is good (short delay time).
- base station apparatus 11 and base station apparatus 12 transmit a DSCH signal to the selected communication terminal apparatus using the modulation scheme and the error correction coding scheme notified by the communication terminal apparatus.
- base station apparatus 11 and base station apparatus 12 It is possible to perform high-speed data communication with communication terminal devices that have good downlink service requirements.
- the CP ICH signal transmitted by the base station device 11 is used. Based on the received quality of the DSCH signal, a modulation scheme and an error correction coding scheme that can be used for the DSCH signal are determined. Thereafter, communication terminal apparatus 13 transmits a DPCH signal including information for notifying the determined modulation scheme and error correction coding scheme. Thereafter, in the base station apparatus 11, the same processing as described above is performed.
- the communication terminal apparatus determines a modulation scheme and an error correction coding scheme that can be used for the DSCH signal based on the reception quality of the CPICH signal. If the transmission power of the CH signal is lower than the transmission power of the CPI CH signal, select a method that is faster than the modulation method and error correction coding method that ensure that the reception quality of the DSCH signal satisfies the required quality. become. For this reason, the reception quality of the DSCH signal in the communication terminal apparatus may be lower than the required quality.
- the reception quality of the CPICH signal in the communication terminal apparatus is 25 [dB].
- the communication terminal apparatus selects the QPSK modulation scheme as the modulation scheme used for the DSCH signal based on the reception quality of the CPCI signal so that the reception quality of the DSCH signal satisfies the required quality.
- the actual DSCH reception quality is Since it is lower than the CPICH signal by 5 [dB], the reception quality of the DSCH signal using QPSK modulation is lower than the required quality.
- a communication terminal In order for a communication terminal to receive a DSCH signal that satisfies the required quality, it needs to receive a DSCH signal using BPSK modulation.
- the communication terminal apparatus modulates the reception quality of the DSCH signal and satisfies the required quality in order to satisfy the required quality. You will select a method that is slower than the method. For this reason, although the communication terminal device can receive the DSCH signal by the modulation method and the error correction coding method that enables higher-speed data communication, Then, a DSCH signal based on the modulation scheme and the error correction coding scheme determined based on the estimated reception quality of the CP ICH signal is received.
- the communication terminal apparatus selects the BP SK modulation method as the modulation method used for the DSCH signal based on the reception quality of the CPICH signal so that the reception quality of the DSCH signal satisfies the required quality.
- the reception quality of the actual DSCH is higher than that of the CPICH signal by 5 [dB], so that the communication terminal apparatus receives the DSCH signal using the QPSK modulation, which is faster than the BPSK modulation. Can also meet the required quality.
- the base station device that has transmitted the CPICH signal with high reception quality at the communication terminal device is transmitted to the DSCH signal. Since it is selected as the request destination, depending on the magnitude of the transmission power of the DSCH signal and the transmission power of the CP ICH signal in the plurality of base station devices, It becomes impossible to accurately select a base station device that transmits a DSCH signal that can be received with the best quality.
- the transmission power of the DSCH signal and the transmission power of the CPICH signal in the base station apparatus 11 are the same, and the transmission power of the DSCH signal in the base station apparatus 12 is smaller than the transmission power of the CPICH signal. 10 [dB], and in the communication terminal device 13, the reception quality of the CP ICH signal transmitted from the base station device 11 is 8 [dB], and the CP ICH signal transmitted from the base station device 12 is Assume that the reception quality of the CH signal is 12 [dB].
- the base station apparatus 12 having good reception quality of the CP ICH signal is selected as a request destination of the DSCH signal.
- the reception quality when the DSCH signal is transmitted from the base station apparatus 11 is 8 [dB]
- the reception quality when the DSCH signal is transmitted from the base station apparatus 12 is 2 [dB]. dB]. Therefore, if the signal is received from the base station device 11 having good quality, only the quality of 2 [dB], which is 6 [dB] lower than the obtained quality of 8 [dB], can be obtained.
- the communication terminal cannot accurately estimate the reception quality of the DSCH signal transmitted by the base station.
- the device cannot receive the DSCH signal with the best quality (the base station device cannot transmit the DSCH signal received with the best quality by the communication terminal to the communication terminal) . Disclosure of the invention
- An object of the present invention is to provide a communication terminal apparatus capable of receiving a DSCH signal with the best quality, or a base station apparatus capable of transmitting a DSCH signal received with the best quality to the communication terminal apparatus.
- the object of the present invention is to provide a method for controlling a reception channel signal based on a reception quality of a control channel signal transmitted by a base station apparatus in a communication terminal apparatus and a transmission power value of the control channel signal and the transmission channel signal in the base station apparatus. This is to determine the modulation method and coding method used for.
- the gist of the present invention is that all base stations are controlled based on the reception quality of the control channel signal transmitted by the base station apparatus in the communication terminal apparatus and the transmission power values of the control channel signal and the data channel signal in the base station apparatus. This is achieved by selecting a base station device to which a data channel signal is requested from among the station devices.
- FIG. 1 is a schematic diagram showing an example of a state of wireless communication by a conventional base station device and a communication terminal device,
- FIG. 2 is a schematic diagram showing the reception quality of the DSCH signal and the CPICH signal in the communication terminal device.
- FIG. 3 is a schematic diagram showing an example of wireless communication performed by the base station device and the communication terminal device according to the first embodiment of the present invention.
- FIG. 4 is a block diagram showing the configuration of the base station apparatus according to the first embodiment
- FIG. 5 is a block diagram showing the configuration of the communication terminal apparatus according to the first embodiment
- FIG. 5 is a schematic diagram showing an example of a DPCH frame format used in the communication terminal device according to the first embodiment
- FIG. 8 is a block diagram showing a configuration of the base station apparatus according to the second embodiment of the present invention
- FIG. 9 is a block diagram showing a configuration of the communication terminal apparatus according to the second embodiment
- FIG. 11 is a schematic diagram showing an example of a DPCH frame format used in the communication terminal apparatus according to the second embodiment.
- FIG. 12 is a schematic diagram showing an example of wireless communication performed by the base station device and the communication terminal device according to the second embodiment.
- FIG. 13 is a schematic diagram showing an example of a state of wireless communication performed by the base station device and the communication terminal device according to the third embodiment of the present invention.
- FIG. 14 is a block diagram showing a configuration of a communication terminal apparatus according to the third embodiment
- FIG. 15 is a block diagram showing a configuration of a base station apparatus according to the third embodiment
- FIG. 9 is a schematic diagram showing an example of a frame format of a DPCH used for the communication terminal device according to the third embodiment
- FIG. 17 is a block diagram illustrating a configuration of a communication terminal device according to the fourth embodiment of the present invention.
- FIG. 18 is a block diagram showing a configuration of the base station apparatus according to the fourth embodiment.
- FIG. 19 is a schematic diagram showing an example of a DPCH frame format used in the communication terminal apparatus according to the fourth embodiment.
- Embodiments 1 and 2 describe a case where a communication terminal device exists only in an area where one base station device covers, and in Embodiments 3 and 4, the communication terminal device A case will be described where a plurality of base station devices are present in the coverage area.
- FIG. 3 is a schematic diagram illustrating an example of wireless communication performed by the base station device and the communication terminal device according to the first embodiment of the present invention.
- communication terminal apparatus 102 exists in an area covered by base station apparatus 101, and performs radio communication with base station apparatus 101.
- a communication terminal device other than the communication terminal device 102 also exists in an area covered by the base station device 101, and performs wireless communication with the base station device 101.
- base station apparatus 101 transmits a common known signal to the communication terminal apparatus using CPICH. Further, base station apparatus 101 uses BCH (Broadcast Channel) to transmit information indicating the transmission power of its own CPICH signal and the transmission power of the DSCH signal (hereinafter simply referred to as “transmission power information”) and a known signal. The transmitted signal is transmitted to the communication terminal device. Note that a signal communicated using the BCH is referred to as a “BCH signal”.
- CPICH is a channel for the base station apparatus to transmit a common known signal to each communication terminal apparatus.
- the DSCH is a channel for the base station apparatus to transmit data such as a high transmission rate bucket to a predetermined communication terminal apparatus.
- the uplink DP CH is a channel in which each communication terminal transmits a signal including a known signal and a voice signal to the base station, and the downlink DP CH is a channel in which the base station transmits each communication terminal. This is a channel for transmitting a signal including a known signal, information indicating a communication terminal device to which the DSCH is to be transmitted, and audio data to the device.
- Communication terminal apparatus 102 transmits by base station apparatus 101 using the reception quality of the CPICH signal transmitted by base station apparatus 101 and the transmission power information included in the BCH signal transmitted by base station apparatus 101. Estimate the reception quality of the received DSCH signal. Further, based on the estimated reception quality of the DSCH signal, communication terminal apparatus 102 transmits a modulation scheme and an error correction coding scheme (hereinafter simply referred to as “modulation 'coding scheme”) that can be used for the DSCH signal. )) And information for notifying the base station apparatus 101 of the determined modulation and coding scheme. (Hereinafter referred to as “MCS 1”).
- modulation 'coding scheme an error correction coding scheme
- base station apparatus 101 Based on MCS 1 included in the DPCH signal transmitted by the communication terminal apparatus including communication terminal apparatus 102, base station apparatus 101 checks the status of the downlink (that is, DSCH) among all the communication terminal apparatuses. Select a communication terminal device that is good and has good downlink service requirements (short delay time). Thereafter, base station apparatus 101 transmits a DSCH signal to the selected communication terminal apparatus using the modulation and coding scheme notified by the communication terminal apparatus.
- DSCH downlink
- FIG. 4 is a block diagram showing a configuration of the base station apparatus according to the first embodiment of the present invention.
- RF section 202 performs predetermined transmission processing such as frequency conversion on the multiplexed signal from multiplexing section 210 described later, and transmits the multiplexed signal subjected to the transmission processing via antenna 201.
- a despreading process is performed using the spread code.
- Allocation section 204 uses MCS 1 from DPCH despreading / demodulation sections 203-1 to 203-N to select a communication terminal apparatus that can transmit a DSCH signal at the highest speed among communication terminal apparatuses 1 to N. Further, allocating section 204 allocates the selected communication terminal apparatus to buffer 205 and DPCH modulation / spreading sections 206-1 to 206. — Notify N and notify the DSCH modulation / spreading section 207 of the selected communication terminal apparatus and the modulation / coding scheme notified by this communication terminal apparatus.
- the buffer 205 holds the transmission data for each communication terminal device via the wired network, and transmits the transmission data of the communication terminal device notified by the allocating unit 204 of the held transmission data to the DSCH modulation / spreading unit. Output to 207.
- DSCH modulation ′ spreading section 207 performs error correction coding processing, modulation processing and spreading processing corresponding to the modulation and coding scheme broadcast by allocation section 204 on the transmission data from buffer 205, A DSCH signal of the communication terminal apparatus notified by the unit 204 is generated.
- DP CH modulation / spreading section 206 -1-206-1 N indicates that the transmission data of communication terminal apparatuses 1 to N and the communication terminal apparatus notified by allocating section 204 are to be the destinations of the DSCH signal. Modulation processing is performed on information (hereinafter referred to as “MCS2”) and signals including known signals. Further, DPCH modulation / spreading sections 206-1 to 206-N can perform despreading processing on the modulated signals using spreading codes assigned to DPCHs of communication terminal apparatuses 1 to N, respectively. Thus, a DPCH signal is generated for each of the communication terminals 1 to N.
- BCH modulation / spreading section 208 generates transmission power information using the transmission power of the CPICH signal and the transmission power of the DSCH signal, and performs modulation processing on the signal including the transmission power information and the known signal. Further, BCH modulation / spreading section 208 generates a BCH signal by performing spreading processing on the modulated signal using a spreading code assigned to BCH.
- CP ICH modulation / spreading section 209 performs modulation processing on a signal including a known signal. Further, CP I CH modulation / spreading section 209 generates a CP I CH signal by performing spreading processing on the modulated signal using a spreading code assigned to the CP I CH.
- the multiplexing section 210 has a DPCH modulation and a spreading section 206-1 to 206-N, respectively.
- a multiplexed signal is generated by multiplexing the CP ICH signal generated by spreading section 209.
- the multiplexing unit 21 outputs the generated multiplexed signal to the RF unit 202 described above.
- FIG. 5 is a block diagram showing a configuration of the communication terminal device according to the first embodiment of the present invention.
- unit 302 performs predetermined reception processing such as frequency conversion on a signal (reception signal) received by antenna 301. Also, unit 302 performs predetermined transmission processing such as frequency conversion on a DPCH signal from DPCH modulation / spreading unit 310 described later, and transmits the DPCH signal that has been subjected to transmission processing via antenna 301. Send.
- CP ICH despreading section 303 performs despreading processing on the received signal received and processed by RF section 302 using a spreading code assigned to the CP ICH.
- Measuring section 304 measures the reception quality (eg, SIR) of the signal (ie, CPICH signal) despread by CP ICH despreading section 303, and estimates the reception quality of the measured CP ICH signal by SIR. Output to section 305.
- reception quality eg, SIR
- BCH despreading section 306 performs despreading processing on the received signal received and processed by RF section 302 using a spreading code assigned to BCH.
- BCH demodulation section 307 generates a demodulated signal by performing demodulation processing on the received signal despread by BCH despreading section 306. Further, BCH demodulation section 307 extracts transmission power information from the generated demodulated signal, and outputs the extracted transmission power information to SIR estimating section 305.
- SIR estimation section 305 receives the DSCH signal using the reception quality of the CPICH signal from measurement section 304 and the transmission power information from BCH demodulation section 307. Estimate quality.
- MCS 1 determining section 308 determines a modulation and coding scheme that can be used for the DSCH signal based on the estimated reception quality of the DSCH signal, creates MCS 1 according to the determination result, and generates a multiplexing section. Output to 309.
- Multiplexing section 309 generates a multiplexed signal by multiplexing the known signal, the transmission data, and MCS 1 from MCS 1 determining section 308.
- DPCH modulation / spreading section 310 performs modulation processing on the multiplexed signal from multiplexing section 309. Further, DPCH modulation / spreading section 310 generates a DPCH signal by performing spreading processing on the modulated multiplexed signal using a spreading code assigned to the DPCCH of the present communication terminal apparatus. Further, DPCH modulation / spreading section 310 outputs the generated DPCH signal to RF section 302 described above.
- DPCH despreading section 311 performs despreading processing on the received signal received and processed by RF section 302 using a spreading code assigned to the present communication terminal apparatus.
- DPCH demodulation section 312 generates a demodulated signal by performing demodulation processing on the signal despread by DPCH despreading section 311. Further, DPCH demodulation section 312 extracts the MCS 2 from the generated demodulated signal, thereby recognizing to which communication terminal apparatus the DSCH signal has been transmitted. Further, DPCH demodulation section 312 outputs the recognition result to DSCH despreading section 313 and DSCH demodulation section 314.
- DSCH despreading unit 313 recognizes that the DSCH signal has been transmitted to the communication terminal device based on the recognition result from the DPCH demodulation unit 312, the received signal processed by the RF unit 302 Then, a despreading process corresponding to the modulation and coding scheme determined by the MCS 1 determination unit 308 is performed.
- DSCH demodulation section 314 performs demodulation processing corresponding to the modulation and coding scheme determined by MCS 1 determination section 308 on the received signal despread by DSCH despreading section 313, thereby receiving the signal. Produce de overnight.
- FIG. 6 is a schematic diagram showing an example of a frame format used for the base station apparatus according to the first embodiment of the present invention.
- FIG. 7 is a schematic diagram showing an example of a DPCH frame format used for the communication terminal device according to the first embodiment of the present invention.
- a known signal as shown in FIG. 6 is modulated and then spread using a spreading code assigned to the CP ICH in a CP ICH modulation / spreading section 209. .
- a CP I CH signal is generated.
- the generated CPICH signal is output to multiplexing section 210.
- transmission power information is generated using the transmission power of the CPICH signal and the transmission power of the DSCH signal, and the transmission power information and the known signal are time-multiplexed as shown in FIG. .
- FIG. 6 it is clear that the BCH, CPICH, DPCH, and DSCH signals are code-multiplexed in the same frequency band. Further, the time-multiplexed signal is modulated, and then spread using the spreading code assigned to the BCH. As a result, a BCH signal is generated. The generated BCH signal is output to multiplexing section 210.
- the DSCH signal generated by the spreading section 207 is output to the multiplexing section 210.
- DPCH modulation 'The DPCH signal generated by the spreading section 206-1-206-N is output to the multiplexing section 210.
- the details of the DSCH signal generated by DSCH modulation / spreading section 207 and the DPCH signal generated by DPCH modulation / spreading sections 206-1 to 206-N will be described later.
- the BCH signal, CPICH signal, DSCH signal, and DPCH signals of communication terminal apparatuses 1 to N are code-multiplexed as shown in FIG. As a result, a multiplex signal is generated.
- the generated multiplexed signal is transmitted via an antenna 201 after predetermined transmission processing is performed by an RF unit 202. This The transmitted signal is received by communication terminal apparatuses 1 to N (communication terminal apparatuses having the configuration shown in FIG. 5).
- the signal transmitted by the base station apparatus as described above is received by the antenna 301 and then received by the RF unit 302.
- the received signal subjected to the reception processing is output to CP ICH despreading section 303, BCH despreading section 306, DPCH despreading section 311 and DSCH despreading section 313.
- CP ICH despreading section 303 BCH despreading section 306
- DPCH despreading section 311 and DSCH despreading section 313 The details of processing in DPCH despreading section 311 and DSCH despreading section 313 will be described later.
- CPICH despreading section 303 the received signal processed by RF section 302 is subjected to despreading processing using the spreading code assigned to the communication terminal apparatus, and then demodulated. You. As a result, a demodulated signal, that is, a CP I CH signal is generated. The generated CP I CH signal is output to measurement section 304. The measurement unit 304 measures the reception quality (for example, SI: etc.) of the generated CPICH signal. The measured reception quality of the CPICH signal is output to SIR estimation section 305.
- SI SI: etc.
- B C11 despreading section 306 a despreading process is performed on the received signal received and processed by RF section 302 using a spreading code assigned to BCH.
- the BCH demodulation section 307 performs demodulation processing on the received signal despread by the BCH despreading section 306, thereby generating a demodulated signal. Further, transmission power information is extracted from the generated demodulated signal, and the extracted transmission power information is output to SIR estimating section 305.
- SIR estimation section 305 estimates the reception quality (reception SIR) of the DSCH signal using the reception quality of the CPICH signal from measurement section 304 and the transmission power information from BCH demodulation section 307.
- the estimated reception quality of the DSCH signal here corresponds to the reception quality of the DSCH signal transmitted by the base station apparatus in the present communication terminal apparatus.
- the DSCH signal is received by the following equation. The communication quality is measured.
- the reception quality of the DSCH signal estimated by SIR estimating section 305 is output to MCS 1 determining section 308.
- the MCS1 determination section 308 determines a modulation and coding scheme that can be used for the DSCH signal based on the reception quality of the DSCH signal estimated by the S estimation section 305. Specifically, for example, a table showing (estimated reception quality of DSCH signal) vs. (modulation / encoding scheme for achieving required service quality) is created in advance, and this table is used. Further, it is possible to determine a modulation and coding scheme corresponding to the estimated reception quality of the DSCH signal.
- the MCS 1 determination section 308 creates information (ie, MCS 1) for notifying the determined modulation and coding scheme.
- MCS 1 is output to the multiplex unit 309.
- Multiplexing section 309 generates a multiplexed signal by multiplexing the known signal, the transmission data, and MCS 1 from MCS 1 determining section 308. That is, for example, as shown in FIG. 7, a known signal is inserted into the PI LOT portion, MCS 1 is inserted into the MCS 1 portion, and transmission data is inserted into the DATA portion, thereby multiplexing. A signal is generated. The generated multiplexed signal is spread in DPCH modulation / spreading section 310 using a spreading code assigned to the DPCH of the present communication terminal apparatus. As a result, a DPCH signal is generated. After the generated DPCH signal is subjected to transmission processing by RF section 302, it is transmitted to the base station apparatus via antenna 301.
- the signals transmitted by communication terminal apparatuses 1 to N are received by the base station apparatus.
- the data transmitted to the communication terminal devices 1 to N are transmitted as described above.
- the received signal is received by the RF unit 202 after being received via the antenna 201.
- the received signal received and processed by RF section 202 is output to DPCH despreading / demodulating sections 203-1 to 203 -N.
- the DPCH despreading demodulation unit 203— :! to 203—N first, for the reception signals processed by the unit 202, the spreading codes assigned to the DPCHs of the communication terminal devices 1 to N, respectively. Is used to perform a despreading process. Further, in the DPCH despreading / demodulation units 203-1 to 203 -N, a demodulated signal is generated by performing demodulation processing on the signal obtained by the despreading processing. Thereafter, DPC H despreading / demodulating sections 203-1 to 203 -N extract MCS 1 of communication terminal apparatuses 1 to N from the demodulated signals, respectively. The extracted MCSs 1 of communication terminal apparatuses 1 to N are output to allocating section 204.
- Allocation section 204 uses MCS 1 from DPCH despreading / demodulation sections 203-1 to 203 -N to select a communication terminal apparatus capable of transmitting a DSCH signal at the highest speed among communication terminal apparatuses 1 to N. You. Thereafter, allocating section 204 notifies buffer 205 and DPCH modulation / spreading sections 206-1 to 206 -N which communication terminal apparatus has been selected as the transmission destination of the DSCH signal. Also, from allocating section 204: DSCH modulation 'to spreading section 207, which communication terminal apparatus is selected as the transmission destination of the DSCH signal, and the modulation / coding notified by this communication terminal apparatus. The method is announced.
- the buffer 205 outputs the transmission data corresponding to the communication terminal apparatus broadcast from the allocating section 204 to the DSCH modulation / spreading section 207.
- the transmission data output from the buffer 205 is subjected to error correction coding processing, modulation processing, and spreading processing corresponding to the modulation / coding scheme notified by the buffer allocating section 204 in the DSCH modulation / spreading section.
- the DSCH signal of the communication terminal apparatus broadcast by allocation section 204 is generated.
- the generated DSCH signal is output to multiplexing section 210.
- the DPCH modulation / spreading units 206-1 to 206-N transmit the DSCH signal to the communication terminal devices broadcast by the allocating unit 204, and the transmission data of the communication terminal devices 1 to N, respectively.
- MCS2 indicating the signal and a signal including the known signal are generated. That is, for example, in the DPCH modulation 'spreading unit 206-1 (206-N), as shown in FIG. 6, the known signal is inserted into the PI LOT part, the MCS 2 is inserted into the MCS 2 part, The transmission data of 1 (communication terminal device N) is inserted into the DAT A part.
- the signals generated as described above are subjected to modulation processing, and then subjected to the spreading codes assigned to the DPCHs of the communication terminal devices 1 to N, respectively.
- a despreading process is performed by using this.
- DPCH modulation / spreading sections 206-1 to 206-N generate DPCH signals of communication terminal apparatuses 1 to N, respectively.
- the generated DPCH signals of communication terminal apparatuses 1 to N are output to multiplexing section 210.
- multiplexing section 210 DPCH modulation 'DPCH signals of communication terminal apparatuses 1 to N generated by spreading sections 206-1 to 206-N, DSCH modulation' DSCH signals generated by spreading section 207, BCH A multiplexed signal is generated by multiplexing the BCH signal generated by modulation / spreading section 208 and the CP ICH signal generated by CP ICH modulation / spreading section 209. Note that the generation of the CPICH signal and the BCH signal is as described above.
- the multiplexed signal generated by multiplexing section 210 is subjected to transmission processing by RF section 202, and then transmitted via antenna 201. The signals transmitted in this manner are received by the communication terminals 1 to N.
- the signal transmitted by the base station apparatus as described above is received by the antenna 301 and subjected to reception processing by the RF section 302, and then the CCH despreading section 303 and the BCH despreading.
- BCH despreader 306 and C The processing in PICH despreading section 303 is as described above.
- DPCH despreading section 311 performs despreading processing on the signal received and processed by RF section 302 using a spreading code assigned to the present communication terminal apparatus.
- the received signal despread by DPCH despreading section 311 is demodulated by DPCH demodulation section 312. Thereby, a demodulated signal is generated.
- DPCH demodulation section 312 extracts MCS2 from the generated demodulated signal. DPCH demodulation section 312 uses MCS2 to recognize to which communication terminal apparatus the DSCH signal has been transmitted from the base station apparatus. The recognition result is output from the DPCH demodulation unit 312 to the DSCH reverse dispersion unit 313 and the DSCH demodulation unit 314.
- DSCH3 ⁇ 4M313 if it is recognized from the recognition result from DPCH demodulation section 312 that the DSCH signal has been transmitted to the communication terminal apparatus, the received signal processed by RF section 302 is received.
- the despreading process corresponding to the modulation and coding scheme determined by the MCS 1 determination unit 308 is performed.
- the received signal that has been subjected to the despreading process is subjected to a demodulation process corresponding to the modulation / code method determined by the MCS 1 determination unit 308 in the DSCH demodulation unit 314. Thereby, the reception data is generated.
- the above is the operation of the base station apparatus and the communication terminal apparatus according to the present embodiment.
- the transmission power of the CP ICH signal in the base station apparatus is 50 [dB]
- the transmission power of the DSCH signal in the base station apparatus is 45 [dB]
- the reception quality of the C I CH signal in the communication terminal apparatus is Is 25 [dB].
- the base station apparatus notifies the communication terminal apparatus of transmission power information regarding the transmission power of the DSCH signal and the CP ICH signal, and the communication terminal apparatus receives the transmission quality information of the CP ICH signal.
- the communication terminal apparatus can accurately recognize the reception quality of the DSCH signal, so that the reception quality of the DSCH signal satisfies the required quality and the best DSCH signal (optimum modulation and coding scheme). Therefore, the modulation and coding schemes that can be used for the DSCH signal can be accurately determined so that the DSCH signal using the DSCH signal can be received.
- FIG. 12 is a schematic diagram showing an example of wireless communication performed by the base station device and the communication terminal device according to the second embodiment of the present invention.
- communication terminal apparatus 1002 reports the reception quality of the CP ICH signal to the base station apparatus, and base station apparatus 1001 receives the reception quality of the CP ICH signal in communication terminal apparatus 1002 and the base station apparatus.
- the reception quality of the DSCH signal in communication terminal apparatus 1002 is estimated using the ratio of the transmission power of the DSCH signal to the CP ICH signal in 1001.
- base station apparatus 1001 determines that the downlink (ie, DSCH) state is good among all communication terminal apparatuses based on the estimated DSCH signal reception quality. Select a communication terminal device (here, communication terminal device 1002) that has a good downlink service request (short delay time).
- a modulation and coding scheme that can be used for the DSCH signal is determined based on the reception quality of the CP I CH signal. Further, base station apparatus 1001 transmits a DSCH signal to selected communication terminal apparatus 1002 using the determined modulation and coding scheme. The above is the outline of the present embodiment.
- FIG. 8 is a block diagram showing a configuration of the base station apparatus according to the second embodiment of the present invention. Note that the same components as those in the first embodiment (FIG. 4) in FIG. 8 are denoted by the same reference numerals as those in FIG. 4, and detailed description is omitted.
- DPCH despreading / demodulation sections 601—1 to 601—N are assigned to the DPCHs of communication terminal apparatuses 1 to N, respectively, for the reception signals on which predetermined reception processing has been performed by section 202.
- a despreading process is performed using the spread code.
- the DPCH despreading demodulator 601-1 -601 -N generates a demodulated signal by performing demodulation processing on the signal obtained by the despreading processing, and generates a CP from the generated demodulated signal.
- Information indicating the reception quality of the ICH signal is extracted and output to the selection units 602-1 to 602 -N.
- Selectors 602-1 to 602-N are DPCH despreading and demodulator 60
- a modulation and coding method that can be used for the DS CH signals for the communication terminal devices 1 to N is determined, The determination result is output to allocating section 603.
- Allocating section 603 uses the determination result by selecting section 602— :! to 602—N to select the communication terminal apparatus that can transmit the DSCH signal at the highest speed among communication terminal apparatuses 1 to N, except that Same as allocation unit 204 in mode 1 Having a configuration.
- the multiplexing unit 604 includes a DPCH modulation / spreading unit 206-1 to 206 -N, a DPCH signal of the communication terminal device 1 to N generated by each of them, a DSCH modulation / spreading unit 207 generated DSCH signal, and a CP.
- ICH modulation Genericates a multiplexed signal by multiplexing the CP ICH signal generated by the spreading unit 209.o
- FIG. 9 is a block diagram showing a configuration of the communication terminal device according to the second embodiment of the present invention. Note that the same components as those in Embodiment 1 (FIG. 5) in FIG. 9 are denoted by the same reference numerals as those in FIG. 5, and detailed description thereof will be omitted.
- Multiplexing section 701 generates a multiplexed signal by multiplexing the known signal, transmission data, and information indicating the reception quality of the CPICH signal from measurement section 304.
- FIGS. 10 and 11 the operations of the base station apparatus and the communication terminal apparatus having the above configurations will be described with reference to FIGS. 10 and 11 in addition to FIGS. FIG.
- FIG. 10 is a schematic diagram illustrating an example of a frame format used for the base station apparatus according to the second embodiment of the present invention.
- FIG. 11 is a schematic diagram illustrating an example of a DPCH frame format used in the communication terminal device according to the second embodiment of the present invention. It is to be noted that detailed description of operations performed in the present embodiment similar to those in Embodiment 1 is omitted.
- the multiplexing section 604 code-multiplexes the CPICH signal, the DSCH signal, and the DPCH signals of the communication terminal apparatuses 1 to N as shown in FIG. As a result, a multiplex signal is generated.
- the generated multiplexed signal is transmitted via RF section 202 and antenna 201.
- the signals transmitted in this manner are received by communication terminal apparatuses 1 to N (communication terminal apparatuses having the configuration shown in FIG. 9).
- the measuring unit 304 receives the CPICH signal.
- the quality is measured and information indicating the measured reception quality of the CP I CH signal is generated.
- Information indicating the reception quality of the CP ICH signal is output to multiplexing section 701.
- a multiplexed signal is generated by multiplexing information indicating the reception quality of the known signal, the transmission data, and the CPICH signal. That is, for example, as shown in FIG. 11, a known signal is inserted in the PIL 0 T portion, the reception quality of the CPICH signal is inserted in the SIR portion, and the transmission data is inserted in the DATA portion. As a result, a multiplex signal is generated. Thereafter, as described above, a DPCH signal is generated by DPCH modulation / spreading section 310, and the generated DPCH signal is transmitted to base station apparatus via RF section 302 and antenna 301.
- the signals transmitted by communication terminal apparatuses 1 to N are received by the base station apparatus.
- the signals transmitted to communication terminal apparatuses 1 to N as described above are output to 0 ⁇ 11 despreading 'demodulation sections 601-1 to 601 -N via antenna 201 and RF section 202. Is done.
- the received signal from the RF unit 202 is subjected to despreading processing, and then demodulation processing is performed on the signal obtained by the despreading processing. As a result, a demodulated signal is generated. Further, information indicating the reception quality of the CP ICH signal is extracted from the generated demodulated signal. The information indicating the reception quality of the CP ICH signals of the communication terminal devices 1 to N extracted by each of the DPCH despreading / demodulation units 601-1 -601-N is selected by the selection unit 602-:! 602 — Output to N.
- selection sections 602— :! to 602—N use modulation / coding schemes that can be used for DSCH signals for communication terminal apparatuses 1 to N, respectively, based on the estimated DSCH signal reception quality. Is determined.
- the method of determining the modulation / coding method is the same as that by the MCS 1 determining section 308 of the communication terminal apparatus according to Embodiment 1 (FIG. 5).
- Selection section 602; 602 -N, the modulation and coding schemes corresponding to the communication terminal apparatuses 1 to N determined thereby are output to the allocating section 603.
- the allocating section 603 uses the modulation and coding schemes corresponding to the communication terminal apparatuses 1 to N of the selection sections 602-1 to 602 -N, and uses the modulation and coding schemes of the communication terminal apparatuses 1 to N to provide the fastest DSCH signal Is selected. Thereafter, allocating section 603 notifies buffer 205 and DPCH modulation / spreading sections 206-1 to 206 -N of which communication terminal apparatus has been selected as the transmission destination of the DSCH signal. Also, allocating section 603 notifies DSCH modulation-spreading section 207 which communication terminal apparatus has been selected as the transmission destination of the DSCH signal, and the modulation and coding scheme notified by this communication terminal apparatus. Be informed. '
- the processing described in the first embodiment is performed in the no-offer 205, the DSCH modulation / spreading section 207, and the DPCH modulation / spreading sections 206-1 to 206-N.
- the generated multiplexed signal is communicated via the RF unit 202 and the antenna 201. Sent to terminal devices 1-N. The signals transmitted in this manner are received by the communication terminals 1 to N. Subsequent processes in the communication terminal devices 1 to N are the same as those in the first embodiment, and thus a detailed description is omitted.
- the communication terminal apparatus reports the reception quality of the CPICH signal to the base station apparatus, and the base station apparatus receives the CPICH signal received by the communication terminal apparatus, Using the transmission power of the DSCH signal and the CP ICH signal in the base station apparatus, the reception quality of the DSCH signal in the communication terminal apparatus is estimated. Further, the base station apparatus determines a modulation / coding scheme that can be used for the DSCH signal based on the estimated reception quality of the DSCH signal in the communication terminal apparatus.
- the base station apparatus can accurately recognize the reception quality of the DSCH signal in the communication terminal apparatus, so that the reception quality of the DSCH signal satisfies the required quality and the best DSCH signal (optimum).
- the modulation and coding scheme that can be used for the DSCH signal can be accurately determined so that the modulation scheme (coding scheme used; DSCH signal) can be received. Therefore, it is possible to provide a base station apparatus capable of transmitting a DSCH signal received with the best quality to the communication terminal apparatus, and to provide a communication terminal apparatus capable of receiving the DSCH signal with the best quality.
- FIG. 13 is a schematic diagram illustrating an example of wireless communication performed by the base station device and the communication terminal device according to the third embodiment of the present invention.
- communication terminal apparatus 1103 is an area covered by a plurality of base station apparatuses (here, the area covered by base station apparatus 1101 and the base station apparatus). 1102).
- the communication terminal apparatus other than the communication terminal apparatus 1103, c is first assumed that E rear and base station apparatus 1102 base station apparatus 1101 covers is present in an area covered, the base station Device 1101 and base station device 1102 each transmit a unique BCH signal. Further, base station apparatus 1101 and base station apparatus 1102 each transmit a unique CPICH signal.
- the BCH signal and CPICH signal are the same as those in the first embodiment.
- the communication terminal apparatus 1103 uses the reception quality of the CPICH signal transmitted by the base station apparatus 1101 and the transmission power information included in the BCH signal transmitted by the base station apparatus 1101, and Estimate the reception quality of the transmitted DSCH signal. Further, the communication terminal apparatus 1103 uses the reception quality of the CPICH signal transmitted by the base station apparatus 1102, and the transmission power information included in the BCH signal transmitted by the base station apparatus 1102, The reception quality of the DSCH signal transmitted by base station apparatus 1102 is estimated.
- communication terminal apparatus 1103 selects a base station apparatus (here, base station apparatus 1101) corresponding to the DSCH signal having the best estimated reception quality as a request destination of the DSCH signal. Also, communication terminal apparatus 1103 determines a modulation and coding scheme that can be used for the DSCH signal based on the estimated reception quality of the DSCH signal corresponding to selected base station apparatus 1101 .
- communication terminal apparatus 1103 transmits information for notifying the request destination of the DSCH signal (hereinafter referred to as “base station selection information”) and MCS 1 (that is, information for notifying the determined modulation and coding scheme).
- base station selection information information for notifying the request destination of the DSCH signal
- MCS 1 information for notifying the determined modulation and coding scheme.
- Information and a DP CH signal containing Base station apparatus 1101 and base station apparatus 1102 receive the PCH signal from each communication terminal apparatus and request their own stations to transmit a DSCH signal using the base station selection information included in the DPCH signal. Recognize the communication terminal device that is operating.
- the base The station apparatus 1101 and the base station apparatus 1102 have good downlink conditions (ie, DSCH) among all communication terminal apparatuses requesting their own stations to transmit DSCH signals, and have downlink services. Good request (short delay time) Select a communication terminal device.
- base station apparatus 1101 and base station apparatus 1102 transmit a DSCH signal to the selected communication terminal apparatus using the modulation and coding scheme notified by the communication terminal apparatus.
- communication terminal apparatus 1103 receives the DSCH signal from base station apparatus 1101.
- FIG. 14 is a block diagram showing a configuration of the communication terminal device according to the third embodiment of the present invention. Note that the same components as those in Embodiment 1 (FIG. 5) in FIG. 14 are denoted by the same reference numerals as those in FIG. 5, and detailed description is omitted.
- CPICH despreading section 1201 performs despreading processing on a received signal received and processed by RF section 302 using a spreading code assigned to the CPICH of each base station apparatus. As a result, a CPICH signal is generated for each base station apparatus.
- the measuring unit 1202 measures the reception quality (for example, SIR) of the CPICH signal for each base station device generated by the CPICH despreading unit 1201 and measures the measured CP ICH signal for each base station device. Is output to the SIR estimator 1205.
- SIR reception quality
- BCH despreading section 1203 performs despreading processing on the received signal received and processed by RF section 302 using a spreading code assigned to the BCH of each base station apparatus.
- the BCH demodulation section 1204 performs demodulation processing on the received signal despread by the BCH despreading section 1203, thereby obtaining a demodulated signal for each base station apparatus.
- Generate Also: 6-11 demodulation section 1204 extracts transmission power information from the generated demodulated signal for each base station apparatus, and outputs the extracted transmission power information for each base station apparatus to SIR estimating section 1205.
- the SIR estimation unit 1205 uses the reception quality of the CPICH signal for each base station device from the measurement unit 1202 and the transmission power information for each base station device from the BCH demodulation unit 1204 to obtain the reception quality of the DSCH signal. Is estimated for each base station apparatus. SIR estimating section 1205 outputs the estimated reception quality of the DSCH signal for each base station apparatus to base station determining section 1206 and MCS1 determining section 1207.
- the base station determining unit 1206 uses the estimated reception quality of the DSCH signal for each base station apparatus as a request destination of the DSCH signal, and determines a base station corresponding to the DSCH signal whose estimated reception quality is the best. Select a station device.
- the base station determining section 1206 outputs the selection result to the MCS 1 determining section 1207, and also generates base station selection information for notifying the destination of the DSCH signal request and outputs the information to the multiplexing section 1208.
- the MCS 1 determining unit 1207 determines, based on the reception quality of the DSCH signal for each base station device estimated by the SIR estimating unit 1205 and the selection result from the base station determining unit 1206, first a request destination of the DSCH signal. Then, the reception quality of the DSCH signal corresponding to the base station apparatus selected as “1” is extracted. Further, MCS 1 determining section 1207 determines a modulation and coding scheme that can be used for the DSCH signal using the extracted reception quality, and MCS 1 for notifying the determined modulation and coding scheme. Generate
- Multiplexing section 1208 generates a multiplexed signal by multiplexing transmission data, base station selection information, and MCS1.
- FIG. 15 is a block diagram showing a configuration of the base station apparatus according to the third embodiment of the present invention. Note that the same components as those in Embodiment 1 (FIG. 4) in FIG. 15 are denoted by the same reference numerals as those in FIG. 4, and detailed description thereof will be omitted.
- DPCH despreading 'demodulation sections 1301-1-1 to 1301-N extract the MCS 1 and base station selection information from the demodulated signal and output the extracted information to decision sections 13202-1 to 1302-N, respectively.
- Judgment unit 1302—1 to 1302—N are DPCH despreading and demodulation unit 1301— :! If the base station selection information from 1301 —N indicates that the own station is requesting transmission of a DSCH signal, the DPCH despreading / demodulation unit 1301 — 1 to 1301 — Is output to the allocating unit 204.
- FIG. 16 is a schematic diagram illustrating an example of a DPCH frame format used for the communication terminal apparatus according to the third embodiment of the present invention. The detailed description of the operation performed in the present embodiment similar to that of the first embodiment is omitted.
- the signals transmitted by the base station apparatus are transmitted to the CPICH despreading section 1201, the BCH despreading section 1203, and the DPCH despreading via the antenna 301 and the RF section 302 as described above. This is output to section 311 and DSCH despreading section 313. Processing in DPCH despreading section 311 and DSCH despreading section 313 is as described in the first embodiment.
- CPICH dispersing section 1201 despreading processing is performed on the received signal received and processed by RF section 302 using a spreading code assigned to the CPICH of each base station apparatus. As a result, a CP ICH signal is generated for each base station apparatus.
- Measuring section 1202 measures the reception quality (for example, SIR, etc.) of the CP ICH signal generated by CP ICH despreading section 1201 for each base station apparatus.
- the measured reception quality of the CPICH signal for each base station apparatus is output to the SIR estimator 1205.
- BCH despreading section 1203 performs despreading processing on the received signal received and processed by RF section 302 using a spreading code assigned to the BCH of each base station apparatus.
- BCH demodulation section 1204 performs demodulation processing on the received signal despread by BCH despreading section 1203, thereby generating a demodulated signal for each base station apparatus.
- transmission power information is extracted from the generated demodulated signal for each base station apparatus, and the extracted transmission power information for each base station apparatus is output to SIR estimating section 1205. Note that the transmission power information is the same as that described in the first embodiment.
- the SIR estimation unit 1205 uses the reception quality of the CPICH signal for each base station device from the measurement unit 1202 and the transmission power information for each base station device from the BCH demodulation unit 1204 to generate a DSCH signal for each base station device. Is estimated.
- the estimated reception quality of the DSCH signal for each base station apparatus is output to base station determining section 1206 and MCS1 determining section 1207.
- Base station determining section 1206 uses the estimated DSCH signal reception quality of each base station apparatus as a request destination of the DSCH signal, and determines the base station apparatus corresponding to the DSCH signal whose estimated reception quality is the best. Is selected. Further, based on the selection result, a base station selection report for notifying the request destination of the DSCH signal is generated. Thereafter, the selection result is output to MCS 1 determination section 1207, and the generated base station selection information is output to multiplexing section 1208.
- the MCS 1 determining unit 1207 first determines the request destination of the DSCH signal based on the reception quality of the DSCH signal for each base station device estimated by the SIR estimating unit 1205 and the selection result from the base station determining unit 1206. Then, the reception quality of the DSCH signal corresponding to the base station apparatus selected as is extracted. Further, using the extracted reception quality, a modulation / coding scheme that can be used for the DSCH signal is determined, and MCS 1 for notifying the determined modulation / coding scheme is generated. Note that generation of MCS 1 is performed by using MCS 1 determining section 30 according to the first embodiment. 8 and the detailed description is omitted. The generated MCS 1 is output to multiplexing section 1208.
- the multiplexing unit 1208 generates a multiplexed signal by multiplexing the known signal, the transmission data, the MCS 1 from the MCS 1 determining unit 1207, and the base station selection information from the base station determining unit 1206. That is, for example, as shown in FIG. 16, a known signal is inserted into the PI LOT part, MCS 1 is inserted into the MCS 1 part, base station selection information is inserted into the BS number part, and DAT A
- the multiplexed signal is generated by inserting the transmission data into the portion.
- the generated multiplexed signal is transmitted via DPCH modulation / dispersion section 310, RF section 302, and antenna 301 as described in the first embodiment.
- the signals transmitted by communication terminal apparatuses 1 to N are received by the base station apparatus.
- the signals transmitted to communication terminal apparatuses 1 to N as described above are output to: DPCH despreading / demodulating sections 1301-1—1301—N via antenna 201 and RF section 202 Is done.
- DPCH despreading 'demodulators 1301-1 to L301-N first, in DPCH despreading' demodulators 203-1 to 203 -N in Embodiment 1 (Fig. 4), By performing the same process, a demodulated signal is generated. Further, in DPCH despreading / demodulating section 1301-1-1-301-N, MCS 1 and base station selection information are extracted from the demodulated signal. DPCH despreading ⁇ MCS 1 and base station selection information extracted by demodulation sections 1301-1 to 1301-N are each determined by decision section 1302-:! ⁇ 1302—Output to N.
- Judgment sections 1302—1 to: 1302—N first indicate that base station selection information from DPCH despreading demodulation section 1301-1-1301—N requests its own station to transmit a DSCH signal. Is determined. Among the determination units 1302-1-1 to 1302-N, the MCS 1 included in the determination unit is divided by the determination unit that has obtained base station selection information indicating that the own station requests transmission of the DSCH signal. The data is output to the contact unit 204.
- Allocation section 204 performs the same processing as that described in the first embodiment, and selects the communication terminal apparatus that can transmit the DSCH signal at the highest speed among communication terminal apparatuses 1 to N. Thereafter, as in Embodiment 1, a multiplexed signal is generated by multiplexing section 210, and the generated multiplexed signal is transmitted to a communication terminal apparatus via RF section 202 and antenna 201.
- the transmission power of the DSCH signal and the transmission power of the CPICH signal in base station apparatus A are the same, and the transmission power of the DSCH signal in base station apparatus B is 10 [dB] lower than the transmission power of the CPICH signal.
- the reception quality of the CP ICH signal transmitted by base station apparatus A and base station apparatus B is the same.
- the communication terminal device selects base station device A as the request destination of the DSCH signal. Therefore, even if the reception quality of the CP I CH signal is the same, the communication terminal apparatus can select the base station apparatus that transmits the DS CH signal with higher reception quality as the request destination of the DS CH signal .
- each base station apparatus notifies the communication terminal apparatus of the transmission power information on the transmission power of the CPI CH signal and the transmission power of the DSCH signal and the CPI CH signal. Estimates the reception quality of the DSCH signal transmitted by each base station device using the CP ICH signal transmitted by each base station device and the transmission power information. Further, the communication terminal apparatus selects the base station apparatus corresponding to the DSCH signal whose estimated reception quality is the best among all the base station apparatuses, as the request destination of the DSCH signal.
- the communication terminal device Since the reception quality of the DSCH signal transmitted by each base station device can be accurately estimated, the base station device that transmits the DSCH signal that can be received with the best quality can be accurately selected as the destination of the DSCH signal request. can do.
- the communication terminal apparatus determines a modulation and coding scheme that can be used for the DSCH signal based on the estimated reception quality of the DSCH signal corresponding to the selected base station apparatus. By this means, the communication terminal apparatus can accurately determine a modulation / coding scheme that can be used for the DSCH signal transmitted by the selected base station apparatus.
- the communication terminal apparatus can receive the DSCH signal with the best quality. It is possible to provide the base station apparatus that can transmit the DSCH signal and the communication terminal apparatus that can receive the DSCH signal with the best quality. .
- a communication terminal apparatus determines a base station apparatus to which a DSCH signal is requested, and the base station apparatus determines a modulation and coding scheme.
- the outline of the present invention will be described again with reference to FIG.
- base station apparatus 1101 and base station apparatus 1102 each transmit a unique BCH signal.
- base station apparatus 1101 and base station apparatus 1102 each transmit a unique CPICH signal.
- the B CH signal and the CP I CH signal are the same as those in the first embodiment.
- the communication terminal apparatus 1103 transmits the CPICH signal transmitted by the base station apparatus 1101 using the reception quality of the CPICH signal and the transmission power information included in the BCH signal transmitted by the base station apparatus 1101. Estimate the reception quality of the DSCH signal.
- the communication terminal apparatus 1103 uses the reception quality of the CPICH signal transmitted by the base station apparatus 1102, and the transmission power information included in the BCH signal transmitted by the base station apparatus 1102, The reception quality of the DSCH signal transmitted by base station apparatus 1102 is estimated. Further, communication terminal apparatus 1103 selects a base station apparatus (here, base station apparatus 1101) corresponding to the DSCH signal having the best estimated reception quality as a request destination of the DSCH signal, The base station apparatus 1101 is notified of the estimated DSCH signal reception quality.
- base station apparatus here, base station apparatus 1101
- the selected base station apparatus 1101 is notified by the communication terminal apparatus: based on the reception quality of the D SCH signal, out of all reception qualities, the downlink (ie, D SCH) condition is good and the downlink is Select the communication terminal device with good service request (short delay time) (here, communication terminal device 1103). Thereafter, base station apparatus 1101 determines a modulation and coding scheme that can be used for the DSCH signal based on the reception quality of the CCHCH signal in selected communication terminal apparatus 1103. Further, base station apparatus 1101 transmits a DSCH signal to selected communication terminal apparatus 1002 using the determined modulation and coding scheme.
- the above is the outline of the present embodiment.
- FIG. 17 is a block diagram showing a configuration of the communication terminal device according to the fourth embodiment of the present invention. Note that the same components as those in the third embodiment (FIG. 14) in FIG. 17 are denoted by the same reference numerals as those in FIG. 14, and detailed description is omitted.
- base station determination section 1501 uses the reception quality of the DSCH signal for each base station apparatus estimated by SIR estimation section 1205 to determine the estimated reception quality as a request destination of the DSCH signal. Select the base station device corresponding to the best DSCH signal. Further, base station determining section 1501 generates base station selection information for notifying the request destination of the DSCH signal, and estimates the base station selection information and the DSCH signal transmitted by the selected base station apparatus. Information indicating the received quality is output to multiplexing section 150'2. The multiplexing unit 1502 generates a multiplexed signal by multiplexing the known signal, the transmission data, and the information indicating the estimated reception quality of the DSCH signal from the base station determining unit 1501 and base station selection information. .
- FIG. 18 is a block diagram showing a configuration of a base station apparatus according to Embodiment 4 of the present invention. Note that the same components as those in Embodiment 3 (FIG. 15) in FIG. 18 are denoted by the same reference numerals as those in FIG. 15, and detailed description is omitted.
- DPCH despreading 'demodulators 1601-1-1 to L601-N extract base station selection information and information indicating the DSCH signal reception quality from the demodulated signal and determiners 1602-1-1 to L601-N, respectively. It has the same configuration as DPCH despreading / demodulating sections 1301-1 to 1301-N in Embodiment 3 except that the signal is output to 1602-N.
- L 602-N is the DPCH despreading 'demodulation unit 1601-1-;
- the base station selection information from L 601-N requests the own station to transmit the DSCH signal.
- the signal indicating the reception quality of the DSCH is output from the demodulation unit 1601-1-1 to 1601-N to the selection unit 1603-1-1 to 1603-N. .
- the selectors 1603-1 to 1603 -N respectively use the information indicating the reception quality of the DSCH signals from the DPCH despreading / demodulating units 1601-1 to 1601 -N to generate DSCH signals for the communication terminal apparatuses 1 to N.
- a modulation-coding scheme that can be used for multiplexing is determined, and the determination result is output to allocating section 1604.
- the allocating section 1604 uses the determination results of the selecting sections 1603-1 to 1603-N, except that the communication terminal apparatus 1 to N selects the communication terminal apparatus that can transmit the DSCH signal at the highest speed. It has the same configuration as allocation section 204 in the first embodiment.
- FIG. 19 is a schematic diagram showing an example of a DPCH frame format used for the communication terminal apparatus according to the fourth embodiment of the present invention. The detailed description of the operation performed in the present embodiment similar to that of the first embodiment is omitted.
- the base station determining unit 1501 uses the reception quality of the DSCH signal for each base station apparatus estimated by the SIR estimating unit 1205 to estimate as a request destination of the DSCH signal.
- the base station apparatus corresponding to the DSCH signal having the best reception quality is selected.
- base station determining section 1501 generates base station selection information for notifying the request destination of the DSCH signal, and generates the base station selection information and the DSCH signal transmitted by the selected base station apparatus.
- Information indicating the estimated reception quality is output to multiplexing section 1502.
- the multiplexing section 1502 generates a multiplexed signal by multiplexing the known signal, transmission data, information indicating the reception quality of the DSCH signal, and base station selection information. That is, for example, as shown in FIG. 19, a known signal is inserted into the PIL 0 T portion, the reception quality of the 03 ⁇ 11 signal is inserted into the 31 portion, and base station selection information is inserted into the BS number portion A multiplexed signal is generated by inserting transmission data into the DAT A part. Thereafter, as described above, a DPCH signal is generated by DPCH modulation / spreading section 310, and the generated DPCH signal is transmitted to base station apparatus via RF section 302 and antenna 301.
- the signals transmitted by communication terminal apparatuses 1 to N are received by the base station apparatus.
- signals transmitted to communication terminal apparatuses 1 to N as described above are output to DPCH despreading / demodulating sections 1601-1-1 to 1601-N via antenna 201 and section 202; Is done.
- base station selection information and information indicating the reception quality of the DSCH signal are extracted from the demodulated signal. You.
- the base station selection information extracted by the DPCH despreading 'demodulation units 1601-1 to L 601-N and the information indicating the DSCH signal reception quality are output to the determination units 1602-1 to 1602 -N, respectively. Is done.
- Judgment sections 1602—1 to: L 602—N first, indicate that the base station selection information from the DPCH despreading / demodulation sections 1601-1 to 1601-N respectively requests its own station to transmit a DSCH signal. Is determined. Judgment unit 160 2-1 to 1602 -N, to the own station; Judgment unit that has obtained base station selection information indicating that a request for transmission of a DSCH signal is obtained. Is output to the selector provided at the subsequent stage.
- An encoding method is determined. Note that the method of determining the modulation / coding method is the same as that by MCS 1 determining section 308 in Embodiment 1 (FIG. 5), and a detailed description thereof will be omitted.
- the decision result in selection section 1603-1 to 1603-N is output to allocating section 1604.
- the allocating section 1604 uses the modulation and coding schemes corresponding to the communication terminal apparatuses 1 to N of the selection sections 1603-1 to 1603-1 to N to select the fastest among the communication terminal apparatuses 1 to N.
- a communication terminal device that can transmit the DSCH signal is selected.
- multiplexing section 210 generates a multiplexed signal.
- the generated multiplexed signal is transmitted to a communication terminal device via RF section 202 and antenna 201.
- each base station apparatus notifies the communication terminal apparatus of the information on the transmission power of the CPI CH signal and the DS CH signal and the CPI CH signal, and the communication terminal apparatus Reception of the DSCH signal transmitted by each base station device using the CP I CH signal and transmission power transmitted by each base station device Estimate quality. Further, the communication terminal apparatus selects, from all the base station apparatuses, the base station apparatus corresponding to the DSCH signal having the best estimated reception quality as the request destination of the DSCH signal. By this means, the communication terminal apparatus can accurately estimate the reception quality of the DSCH signal transmitted by each base station apparatus, and therefore transmits the DSCH signal that can be received with the best quality as the request destination of the DSCH signal. Base station device can be accurately selected.
- the communication terminal apparatus notifies the selected base station apparatus of the estimated reception quality of the DSCH signal transmitted by the base station apparatus. Thereby, the base station device transmits to the communication terminal device! ) Modulation and coding methods that can be used for SCH signals can be accurately determined.
- the transmission quality of the DSCH signal and CPICH signal on the transmission side and the reception quality of the CPICH signal on the reception side are used to determine the reception quality of the DSCH signal on the reception side.
- Estimation, and the case where the modulation and coding method that can be used for the DSCH signal on the transmission side are determined based on the estimated reception quality of the DSCH signal have been described.
- the control channel used for estimating the name of the data channel (“DSCH” in the above embodiment) and the data channel (in the above embodiment, “CPICH”) and the types of information communicated through these channels are applicable as appropriate. That is, the data channel and the control channel need to be time-multiplexed or code-multiplexed.
- the transmitting side uses the broadcast channel to broadcast the data channel of the transmitting side and the transmission power of the control channel to the receiving side.
- the broadcast channel uses the broadcast channel to broadcast the data channel of the transmitting side and the transmission power of the control channel to the receiving side.
- the case where the communication terminal apparatus is present in the area covered by the two base station apparatuses has been described as an example.
- the present invention can also be applied to a case where there is an area covered by a station device or an area covered by three or more base station devices.
- a communication terminal apparatus capable of receiving a DSCH signal with the best quality, or a base station apparatus capable of transmitting a DSCH signal received with the best quality to the communication terminal apparatus Can be provided.
- the present invention is suitable for application to the field of wireless communication devices, particularly, base station devices and communication terminal devices used in a W-CDMA (Wide band-Code Division Multiple Access) type digital mobile communication system. It is.
- W-CDMA Wide band-Code Division Multiple Access
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Quality & Reliability (AREA)
- Mobile Radio Communication Systems (AREA)
- Digital Transmission Methods That Use Modulated Carrier Waves (AREA)
Description
Claims
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA002383196A CA2383196A1 (en) | 2000-07-03 | 2001-07-02 | Communication terminal apparatus and base station apparatus |
KR1020027002671A KR20020022140A (ko) | 2000-07-03 | 2001-07-02 | 통신 단말 장치, 기지국 장치 및 통신 방법 |
EP20010945746 EP1207714A1 (en) | 2000-07-03 | 2001-07-02 | Communication terminal device, and base station device |
BR0106988A BR0106988A (pt) | 2000-07-03 | 2001-07-02 | Aparelho de terminal de comunicação e aparelho de estação base |
AU2001267892A AU2001267892A1 (en) | 2000-07-03 | 2001-07-02 | Communication terminal device, and base station device |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000-201665 | 2000-07-03 | ||
JP2000201665A JP3583353B2 (ja) | 2000-07-03 | 2000-07-03 | 通信端末装置および基地局装置 |
Publications (1)
Publication Number | Publication Date |
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WO2002003739A1 true WO2002003739A1 (en) | 2002-01-10 |
Family
ID=18699318
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
PCT/JP2001/005695 WO2002003739A1 (en) | 2000-07-03 | 2001-07-02 | Communication terminal device, and base station device |
Country Status (10)
Country | Link |
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US (1) | US20020136271A1 (ja) |
EP (1) | EP1207714A1 (ja) |
JP (1) | JP3583353B2 (ja) |
KR (1) | KR20020022140A (ja) |
CN (1) | CN1189058C (ja) |
AU (1) | AU2001267892A1 (ja) |
BR (1) | BR0106988A (ja) |
CA (1) | CA2383196A1 (ja) |
CZ (1) | CZ2002769A3 (ja) |
WO (1) | WO2002003739A1 (ja) |
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Also Published As
Publication number | Publication date |
---|---|
JP2002026808A (ja) | 2002-01-25 |
CN1189058C (zh) | 2005-02-09 |
JP3583353B2 (ja) | 2004-11-04 |
CN1386389A (zh) | 2002-12-18 |
EP1207714A1 (en) | 2002-05-22 |
CZ2002769A3 (cs) | 2002-10-16 |
CA2383196A1 (en) | 2002-01-10 |
US20020136271A1 (en) | 2002-09-26 |
BR0106988A (pt) | 2002-05-07 |
KR20020022140A (ko) | 2002-03-25 |
AU2001267892A1 (en) | 2002-01-14 |
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