A radio communication apparatus capable of alleviating a burden in setting a transmission format and suppressing increases in the scale of the apparatus. In this apparatus, space multiplexing adaptability detection section detects space multiplexing transmission adaptability for divided bands obtain
A radio communication apparatus capable of alleviating a burden in setting a transmission format and suppressing increases in the scale of the apparatus. In this apparatus, space multiplexing adaptability detection section detects space multiplexing transmission adaptability for divided bands obtained by dividing a communication band to which Ns subcarrier signals belong in multicarrier transmission and to which a plurality of subcarrier signals belong, and outputs the detection results. Transmission format setting section sets a transmission format when carrying out radio transmission based on the detection results from space multiplexing adaptability detection section.
대표청구항▼
1. An integrated circuit configured to control a process of communicating with a reception apparatus using a plurality of divided frequency bands in a communication band, the communication band being divided into the plurality of divided frequency bands and each divided frequency band including a pl
1. An integrated circuit configured to control a process of communicating with a reception apparatus using a plurality of divided frequency bands in a communication band, the communication band being divided into the plurality of divided frequency bands and each divided frequency band including a plurality of subcarriers, the integrated circuit comprising: generator circuitry configured to generate information per divided frequency band according to a format including information on a spatial multiplexing number and information on a spatial multiplexing weight for use in a spatial multiplexing transmission with the reception apparatus; anda transmitter configured to transmit the generated information to the reception apparatus. 2. The integrated circuit according to claim 1, comprising: control circuitry configured to control the process; andat least one output, coupled to the control circuitry, configured to output the generated information for transmission to the reception apparatus. 3. The integrated circuit according to claim 2, wherein the format further includes one or more of information on a modulation scheme and information on a coding rate. 4. The integrated circuit according to claim 2, further comprising: detector circuitry configured to detect a reception quality of a signal transmitted from the reception apparatus per divided frequency band, andwherein the generator circuitry is configured to generate the information per divided frequency band according to the format based on the detected reception quality per divided frequency band. 5. The integrated circuit according to claim 2, wherein the format is set in accordance with the spatial multiplexing number of the spatial multiplexing transmission. 6. An integrated circuit configured to control a process of communicating with a transmission apparatus using a plurality of divided bands in a communication band, the communication band being divided into the plurality of divided bands and each of the plurality of divided bands including a plurality of subcarriers, the integrated circuit comprising: a transmitter configured to transmit a signal to the transmission apparatus, the signal being for use by the transmission apparatus to set a format; anda receiver configured to receive information per divided band, the information being generated by the transmission apparatus according to the format including information on a spatial multiplexing number and information on a spatial multiplexing weight for use in a spatial multiplexing transmission with the transmission apparatus, wherein one format corresponds to one divided band of the plurality of divided bands. 7. The integrated circuit according to claim 6, comprising: control circuitry configured to control the process;at least one output, coupled to the control circuitry, and configured to output the signal for transmission to the transmission apparatus; andat least one input, coupled to the control circuitry, configured to receive the information transmitted from the transmission apparatus. 8. The integrated circuit according to claim 7, further comprising: detection circuitry configured to detect a reception quality of a received signal transmitted from the transmission apparatus, andwherein the transmitter is configured to transmit an indication of the reception quality of the received signal to the transmission apparatus for use in setting the format. 9. The integrated circuit according to claim 7, wherein the format is set by the transmission apparatus in accordance with the spatial multiplexing number of the spatial multiplexing transmission. 10. An apparatus for communicating with a reception apparatus using a plurality of divided frequency bands in a communication band, the communication band being divided into the plurality of divided frequency bands and each divided frequency band including a plurality of subcarriers, the apparatus comprising: an integrated circuit configured to generate information per divided frequency band according to a format including information on a spatial multiplexing number and information on a spatial multiplexing weight for use in a spatial multiplexing transmission with the reception apparatus; anda transmitter configured to transmit the generated information to the reception apparatus. 11. The apparatus according to claim 10, further comprising: at least one output configured to output coupled to the circuitry, wherein the at least one output, in operation, outputs the generated information for transmission to the reception apparatus. 12. The apparatus according to claim 11, wherein the format further includes one or more of information on a modulation scheme and information on a coding rate. 13. The apparatus according to claim 11, wherein the integrated circuit is further configured to: detect a reception quality of a signal transmitted from the reception apparatus per divided frequency band; andgenerate the information per divided frequency band according o the format based on the detected reception quality per divided frequency band. 14. The apparatus according to claim 11, wherein the format is set in accordance with the spatial multiplexing number of the spatial multiplexing transmission. 15. An apparatus for communicating with a transmission apparatus using a plurality of divided bands in a communication band, the communication band being divided into the plurality of divided bands and each of the plurality of divided bands including a plurality of subcarriers, the apparatus comprising: a transmitter configured to transmit a signal to the transmission apparatus, the signal being for use by the transmission apparatus to set a format;a receiver configured to receive information per divided band;an integrated circuit configured to process the information as generated by the transmission apparatus according to the format including information on a spatial multiplexing number and information on a spatial multiplexing weight for use in a spatial multiplexing transmission with the transmission apparatus, wherein one format corresponds to one divided band of the plurality of divided bands. 16. The apparatus according to claim 15, further comprising: at least one output configured to output the signal for transmission to the transmission apparatus; andat least one input configured to receive the information transmitted from the transmission apparatus. 17. The apparatus according to claim 16, wherein the integrated circuit is further configured to: detect a reception quality of a received signal transmitted from the transmission apparatus; andtransmit an indication of the reception quality of the received signal to the transmission apparatus for use in setting the format. 18. The apparatus according to claim 16, wherein the format is set by the transmission apparatus in accordance with the spatial multiplexing number of the spatial multiplexing transmission.
Lokhoff Gerardus C. P. (Eindhoven NLX) Dehery Yves-Francois (Cedex FRX) Stoll Gerhard J. (Munich DEX), Digital sub-band transmission system with transmission of an additional signal.
Mark Wallace ; Jay R. Walton ; Ahmad Jalali, Method and apparatus for measuring reporting channel state information in a high efficiency, high performance communications system.
Arogyaswami J. Paulraj ; Peroor K. Sebastian ; David J. Gesbert ; Jose Tellado, Method and wireless systems using multiple antennas and adaptive control for maximizing a communication parameter.
Kim,Sung Hoon; Lee,Hyeon Woo; Lee,Kook Heui; Park,Joon Goo; Lee,Ju Ho; Choi,Sung Ho; Chang,Jin Weon, Method for allocating HARQ channel number for indicating state information in an HSDPA communication system.
Ohkubo,Shinzo; Yoshino,Hitoshi; Kikuchi,Shiro, Mobile communication systems, mobile communication methods, base stations, mobile stations, and signal transmission methods in the mobile communication systems.
Goldburg Marc H. (Redwood City CA) Roy ; III Richard H. (Cupertino CA) Cooper Martin (Del Mar CA) Harris Arlene J. (Del Mar CA), Spectrally efficient and high capacity acknowledgement radio paging system.
Ottersten Bjorn E.,SEX ; Barratt Craig H. ; Parish David M. ; Roy ; III Richard H., Spectrally efficient high capacity wireless communication systems with spatio-temporal processing.
Doner John R. ; Carney Ronald R. ; Komara Michael A., Wireless system plan using in band-translators with diversity backhaul to enable efficient depolyment of high capacity base transceiver systems.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.