WO2009147958A1 - 移動通信システム、移動通信装置及び移動通信方法 - Google Patents
移動通信システム、移動通信装置及び移動通信方法 Download PDFInfo
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- WO2009147958A1 WO2009147958A1 PCT/JP2009/059427 JP2009059427W WO2009147958A1 WO 2009147958 A1 WO2009147958 A1 WO 2009147958A1 JP 2009059427 W JP2009059427 W JP 2009059427W WO 2009147958 A1 WO2009147958 A1 WO 2009147958A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/08—Access restriction or access information delivery, e.g. discovery data delivery
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/18—Selecting a network or a communication service
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
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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
- H04W88/02—Terminal devices
- H04W88/06—Terminal devices adapted for operation in multiple networks or having at least two operational modes, e.g. multi-mode terminals
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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 mobile communication system, a mobile communication device, and a mobile communication method.
- the present application claims priority based on Japanese Patent Application No. 2008-149885 filed in Japan on June 6, 2008, the contents of which are incorporated herein by reference.
- the mobile communication device When the mobile communication device receives a transmission signal from the base station device, Rayleigh fading occurs due to a change in the relative position between the base station device and the mobile communication device. Due to the occurrence of Rayleigh fading, the phase and amplitude of the received signal vary greatly.
- the mobile communication device has a problem that when the signal amplitude greatly decreases during reception with such fluctuations, the characteristics of the received signal are greatly deteriorated, making it difficult to perform demodulation processing. Such a phenomenon can occur in the same way when a reverse link, that is, a signal transmitted from a mobile communication device is received by the base station device.
- Spatial diversity is a technique for obtaining a diversity effect by transmitting or receiving signals using a plurality of spatially separated antennas.
- Spatial diversity utilizes the characteristic that when the spatial correlation between antennas becomes low, the received electric field strength on the receiving side for each signal transmitted from those antennas varies independently.
- directivity is controlled so that optimum reception can be performed on the receiving side by selecting one of the antennas for transmission, and applying some weighting to each antenna and simultaneously transmitting from both.
- As another method of using multiple antennas there is a spatial multiplexing (MIMO: Multi Input Multi Output, multi-input / multi-output) scheme in which different data strings are transmitted in parallel from both antennas when the radio wave environment is good. .
- MIMO Multi Input Multi Output, multi-input / multi-output
- the base station apparatus in order to execute a process of selecting one antenna from a plurality of antennas of the mobile communication apparatus, the following process is required. First, the mobile communication device transmits a reference signal that is a control signal from each antenna. Then, the base station apparatus receives the reference signal transmitted from each antenna of the mobile communication apparatus, and obtains a quality index for each reference signal. Then, the base station apparatus selects which antenna should be used for communication based on the quality index.
- FIG. 3 is a diagram illustrating the above-described reference signal transmission operation.
- the mobile communication apparatus includes two antennas, a first antenna and a second antenna.
- FIG. 3 shows the uplink status of the first antenna, the uplink status of the second antenna, and the downlink status in order from the top.
- the vertical axis represents frequency and the horizontal axis represents time.
- black and shaded rectangles represent reference signals
- white rectangles represent data signals.
- the mobile communication device transmits a reference signal alternately from the first antenna and the second antenna every 7 symbols.
- the base station apparatus receives the reference signals transmitted from the first antenna and the second antenna, and measures the quality of the signals transmitted from each antenna. Based on this measurement result, the base station apparatus determines a resource block (transmission unit) to be allocated for data transmission, a subsequent modulation scheme, a coding scheme, and the like to optimize based on this quality, and performs mobile communication. Instruct the device.
- reference signals are alternately transmitted from the first antenna and the second antenna even if the data signal is being transmitted by the first antenna. This is because when the base station apparatus determines that the signal transmitted from the second antenna has better quality, the antenna to be used is switched to the second antenna. Since such switching may be performed, it is necessary to transmit the reference signal also from the second antenna.
- a transmission antenna an antenna that transmits data signals
- a standby antenna an antenna that does not transmit data signals
- the base station apparatus when the base station apparatus receives the reference signal at the timing indicated by reference numeral 506, the base station apparatus determines that the oblique reference signal of the second antenna has better quality. In this case, the base station apparatus transmits an antenna switching instruction to the mobile communication apparatus by transmitting an antenna switching instruction in addition to the resource block, modulation scheme, and encoding scheme to be allocated to data transmission in the section 516. I do.
- the mobile communication device that has received this instruction sets a resource block, a modulation scheme, and a coding scheme to be allocated to data transmission according to the instruction and switches the transmission antenna to the second antenna in the section 517.
- the reference signal is not used only for the determination of antenna switching in the base station apparatus.
- LTE Long Term Evolution: 3GPP (3rd Generation Partnership Project, third generation partnership project) currently being studied In the development system
- AMC Adaptive Modulation and Coding
- the transmission of the reference signal by the transmitting antenna is not executed (timing 502 in FIG. 3).
- the quality evaluation at the timing indicated by reference numeral 502 is not performed in the base station apparatus for the transmission antenna.
- AMC is assumed to be slightly deteriorated based on the signal quality of the transmitting antenna measured immediately before in consideration of the margin (here, the quality of the hatched portion of the timing of reference numeral 501). It is necessary to make settings.
- two devices related to signal transmission including PA, are provided. As shown in FIG. It is possible to transmit from two antennas simultaneously. In this case, since the quality of the two antennas is always measured and the antenna having a good quality is selected and the transmission antenna is switched in the same manner as described above, the quality evaluation at the timing of reference numeral 602 is also possible. Does not occur.
- the present invention has been made in view of such circumstances, and in a system that transmits reference signals using a plurality of antennas, mobile communication that can suppress interference due to deterioration in communication quality or increase in the number of reference signal signals. It is an object to provide a system, a mobile communication device, and a mobile communication method.
- the present invention is a mobile communication system that includes a mobile communication device and a base station device, and performs wireless communication with each other, wherein the mobile communication device includes an antenna, a transmission unit, a reception unit, and a baseband processing unit,
- the station device includes an antenna, a transmission unit, a reception unit, and a baseband processing unit, and a plurality of antennas, transmission units, and reception units of the mobile communication device are provided, and the baseband processing unit of the mobile communication device is In accordance with the instructions of the base station apparatus received via the antenna and the receiver, the transmitter and the antenna used for data signal transmission are selected and the data signal is transmitted to the base station apparatus via these.
- the baseband processing unit of the base station apparatus prevents the number from overlapping, based on the quality of the reference signal received through the antenna and the reception unit, through any antenna and transmission unit of the mobile communication device.
- the information regarding whether to transmit data signals and the information regarding whether to transmit a plurality of reference signals to a plurality of transmission units and antennas of the mobile communication device are transmitted via the transmission unit and the antennas. It transmits to a communication apparatus, It is characterized by the above-mentioned.
- the present invention is characterized in that two sets of antennas, transmitters and receivers of the mobile communication device are provided.
- the present invention is characterized in that three or more sets of antennas, transmitters and receivers of the mobile communication device are provided.
- the baseband processing unit of the base station device transmits a reference signal at least at the same frequency as a data signal transmitted by the mobile communication device from the same transmission unit and antenna. It is characterized by instructing the apparatus.
- the present invention is characterized in that the baseband processing unit of the mobile communication device transmits the reference signal from a transmission unit and an antenna different from the transmission unit and the antenna used by the mobile communication device to transmit a data signal.
- the present invention is a mobile communication device in a mobile communication system that includes a mobile communication device and a base station device and performs wireless communication with each other, and includes an antenna, a transmission unit, a reception unit, and a baseband processing unit, and the antenna, transmission
- the baseband processing unit selects a transmission unit and an antenna to be used for data signal transmission according to the instructions of the base station apparatus received via the antenna and the reception unit. Then, a data signal is transmitted to the base station apparatus via these, and a plurality of reference signals having specified values are transmitted to the base station apparatus via a plurality of transmission units and antennas, and at that time The transmission frequency of the reference signal is made not to overlap.
- the present invention includes a mobile communication device including an antenna, a transmission unit, a reception unit, and a baseband processing unit, and a base station device including an antenna, a transmission unit, a reception unit, and a baseband processing unit, and performs wireless communication with each other.
- a mobile communication method in a mobile communication system wherein a plurality of antennas, transmission units, and reception units of the mobile communication device are provided, and a baseband processing unit of the mobile communication device is connected via the antennas and the reception unit.
- a transmitter and an antenna to be used for data signal transmission are selected, and a data signal is transmitted to the base station apparatus through these, and a plurality of references having specified values
- a signal is transmitted to the base station apparatus via a plurality of transmission units and antennas, and the transmission frequency of the reference signal does not overlap at that time.
- the baseband processing unit of the base station device transmits the data signal via any antenna and transmission unit of the mobile communication device based on the quality of the reference signal received via the antenna and the reception unit.
- a signal related to information on whether to transmit the information and whether to transmit a plurality of reference signals to a plurality of transmission units and antennas of the mobile communication device is transmitted to the mobile communication device via the transmission unit and the antenna. It is characterized by doing.
- a reference signal is transmitted from a transmission antenna, and for resource blocks not allocated for data transmission, other antennas other than the transmission antenna are transmitted.
- a reference signal is transmitted from. Therefore, it is possible to realize appropriate AMC control based on the reference signal in the transmission antenna without causing the inconvenience that the transmission antenna switching process cannot be optimally executed. Therefore, by realizing such control, it is possible to obtain an effect that deterioration of communication quality can be suppressed.
- FIG. 3 is a diagram showing an operation of reference signal transmission in the mobile communication system shown in FIG. 1. It is a figure which shows the operation
- FIG. 1 is a block diagram showing a network configuration of the entire mobile communication system in the embodiment.
- the mobile communication system shown in this figure includes mobile communication devices 10 and 30 having a plurality of antennas, and a base station device 20, and the base station device 20 is connected to a mobile communication network 40.
- the mobile communication device 10 performs wireless communication with the base station device 20 and performs wireless communication with other mobile communication devices 30 via the base station device 20 or via the base station device 20 and the mobile communication network 40.
- the mobile communication device 10 includes a transmission antenna and a standby antenna, and transmits a reference signal to the base station device 20 using the plurality of antennas. In particular, the reference signal transmitted using the standby antenna is transmitted in order to determine which antenna is appropriate for base station apparatus 20 to perform radio communication with mobile communication apparatus 10.
- the mobile communication device 10 includes a first antenna 11, a first receiver 12, a first transmitter 13, a second antenna 14, a second receiver 15, a second transmitter 16, and a baseband processor 17.
- the first antenna 11 and the second antenna 14 can be configured using a known wireless communication antenna.
- the first antenna 11 passes the received signal to the first receiving unit 12.
- the second antenna 14 passes the received signal to the second receiving unit 15.
- the first antenna 11 transmits a signal output from the first transmission unit 13.
- the second antenna 14 transmits a signal output from the second transmission unit 16.
- the first receiving unit 12 converts the signal received by the first antenna 11 into a baseband signal, then performs analog-digital conversion and demodulates it, and outputs a digital baseband signal.
- the second receiving unit 15 converts the signal received by the second antenna 14 into a baseband signal, then performs analog-to-digital conversion and demodulation, and outputs a digital baseband signal.
- the baseband processing unit 17 performs diversity combining of the digital baseband signal output from the first receiving unit 12 and the digital baseband signal output from the second receiving unit 15. Also, the baseband processing unit 17 selects a transmission unit used for data signal transmission, and receives a baseband data string for the selected transmission unit (here, the first transmission unit 13 or the second transmission unit 16). hand over. Further, the baseband processing unit 17 performs control related to the transmission of the reference signal in accordance with the instruction transmitted from the base station apparatus 20. Control related to the transmission of the reference signal will be described later. The first transmission unit 13 and the second transmission unit 16 perform transmission processing such as digital-analog conversion on the baseband data string to be transmitted that is output from the baseband processing unit 17.
- the base station apparatus 20 includes an antenna 21, a receiving unit 22, a baseband processing unit 23, and a transmitting unit 24.
- the antenna 21 can be configured using a known wireless communication antenna.
- the antenna 21 passes the received signal to the receiving unit 22.
- the antenna 21 transmits a signal output from the transmission unit 24.
- the receiving unit 22 converts the signal received by the antenna 21 into a baseband signal, then analog-digital converts and demodulates it, and outputs a digital baseband signal.
- the baseband processing unit 23 receives the digital baseband signal output from the receiving unit 22 and performs various processes.
- the baseband processing unit 23 acquires a quality index of each reference signal received via the receiving unit 22, selects a resource block, a modulation scheme, a coding scheme, and an antenna used for communication, and transmits the mobile communication device. 10 is instructed.
- the transmission unit 24 performs transmission processing such as digital-analog conversion on the baseband data string to be transmitted that is output from the baseband processing unit 23.
- FIG. 2 shows the uplink status of the first antenna 11, the uplink status and the downlink status of the second antenna 14 in order from the top.
- Reference numerals 411 to 420 denote resource block sections which are transmission units. Each resource block occupies a time corresponding to 7 symbols in the time direction of the horizontal axis, and occupies a frequency corresponding to 12 subcarriers in the frequency axis direction of the vertical axis. A symbol block corresponding to a subcarrier having a time width corresponding to one symbol and a frequency width of 12 is indicated by a small rectangle in the uplink in the first antenna 11 and the uplink in the second antenna 14 in FIG.
- a group of seven rectangles continuous in the time direction corresponds to a resource block.
- the reference signal is a control signal such as a pilot signal having a prescribed power value
- the transmission timing of the reference signal is indicated by a black or shaded rectangle
- the data signal is indicated by a white rectangle.
- the mobile communication device when two transmission systems are not provided, when transmitting a reference signal, as shown in FIG. 3, transmission is performed from either a transmission antenna or a standby antenna in all resource blocks. Was. Further, when two transmission systems are provided, as shown in FIG. 4, transmission is performed simultaneously from both the transmission antenna and the standby antenna by using orthogonal sequences in all resource blocks.
- the mobile communication system according to the present invention shown in FIG. 1 uses four symbol blocks in which the reference signals from the first antenna 11 and the second antenna 14 belong to at least four resource blocks. Are transmitted alternately.
- a reference signal is always transmitted from a transmission antenna that transmits data using a symbol block that belongs to the same resource block as the data, and when a reference signal is transmitted from a standby antenna, the transmission antenna transmits at that time.
- the reference signal is not arranged in the reference signal symbol block belonging to the same resource block as the resource block to be processed.
- the baseband processing unit 17 transmits reference signals of all resource blocks of the transmission antenna (first antenna 11) to the base station apparatus 20 via the first transmission unit 13 and the first antenna 11 at the timing of 401.
- the 1st antenna 11 transmits data using the 6 symbol blocks which belong to the 3rd resource block from the one with the lowest frequency.
- the reference signal transmitted at this time the reference signal transmitted using the symbol block (hatched rectangle) belonging to the fourth resource block from the lowest frequency is the base station apparatus 20 with the highest quality index. It will be received at.
- This reference signal is received by the baseband processing unit 23 at the timing of reference numeral 401 via the receiving unit 22 of the base station apparatus 20.
- the baseband processing unit 23 measures the signal quality for each resource block based on the received reference signal, and the resource block to be optimally used when the mobile communication device 10 transmits a data signal in the section 412 (A white rectangular portion of the section 412), a modulation method and a coding method are selected and determined.
- the baseband processing unit 23 transmits the determined resource block, modulation scheme, and coding scheme information to the mobile communication device 10 via the transmission unit 24 and the antenna 21 in the section of the code 411.
- the baseband processing unit 17 of the mobile communication device 10 receives the resource block, modulation scheme, and coding scheme information transmitted from the base station device 20 via the first antenna 11 and the first receiving unit 12.
- the baseband processing unit 17 transmits a data signal to be transmitted in the section 412 according to the received information via the first transmission unit 13 and the first antenna 11. That is, the data signal is transmitted using six symbol blocks belonging to the fourth resource block from the lowest frequency.
- the baseband processing unit 17 transmits the reference signal from the transmission antenna (first antenna 11) in the symbol block (reference numeral 402a) belonging to the resource block allocated for data transmission in the reference numeral 412 at the timing indicated by reference numeral 402.
- the reference signal is transmitted from the standby antenna (second antenna 14).
- the reference signal transmitted using the symbol block 402a (hatched rectangle) belonging to the fourth resource block from the lowest frequency is the base station apparatus with the highest quality index. 20 is to be received.
- the baseband processing unit 23 receives the reference signal transmitted by the mobile communication apparatus 10 at the timing of reference numeral 402, measures the signal quality of the reference signal for each resource block, and performs the mobile communication apparatus in the section of reference numeral 413. 10 is determined by selecting an optimal resource block (white rectangular portion of the section of reference numeral 413), a modulation scheme, a coding scheme, and an antenna to be used (here, the first antenna 11) for transmitting a data signal. To do. Then, the baseband processing unit 23 sends the determined source block, modulation scheme, encoding scheme, and antenna information to be used to the mobile communication device 10 via the transmitter 24 and the antenna 21 in the section 412. To send. Here, the same resource block as the resource block in the section 412 is selected, and transmission antenna switching has not occurred.
- the baseband processing unit 23 receives the reference signal from the mobile communication device 10 at the timing indicated by reference numeral 406, measures the quality for each resource block, and the mobile communication device 10 receives the reference signal at the interval indicated by reference numeral 417. Select and determine a resource block (outlined rectangular portion of the section 417), modulation scheme, coding scheme, and antenna to be used (here, the second antenna 14) that are optimal for transmitting a data signal. . Then, the baseband processing unit 23 transmits the determined resource block, modulation scheme, encoding scheme, and information on the antenna to be used to the mobile communication device 10 via the transmission unit 24 and the antenna 21 in the section 416. Send.
- the reference signal is transmitted from the first antenna 11 from the symbol block belonging to the third resource block from the lower frequency, and the second antenna 14 transmits the symbol block belonging to the third resource block.
- Reference signals are transmitted from the four symbol blocks.
- the reference signal transmitted using the symbol block (hatched rectangle) belonging to the second resource block from the lowest frequency transmitted from the second antenna 14 is the highest. It is received at the base station apparatus 20 by the quality index. Therefore, the base station apparatus 20 instructs the mobile communication apparatus 10 to use the second antenna 14 via the downlink, and the baseband processing unit 17 of the mobile communication apparatus 10 follows the instruction in the section 417.
- the data signal is transmitted by switching the transmission antenna. Thereafter, the same processing is repeated.
- a reference signal is transmitted from a transmission antenna (for example, the first antenna 11) in at least symbol blocks belonging to the same resource block, and resource blocks not allocated for data transmission are used.
- the standby antenna transmits the reference signal
- the reference signal is transmitted from the standby antenna (for example, the second antenna 14), so that the transmission antenna switching process can be optimized.
- AMC control can be optimally realized.
- the mobile communication device 10 includes two antennas and the base station device 20 includes one antenna has been described as an example.
- each of the mobile communication device 10 and the base station device 20 includes The number of antennas provided is not limited to this, and the mobile communication device 10 may be configured to have three or more (including three) antennas, or two or more base station devices 20 may be provided.
- reference signals transmitted from a plurality of antennas of the mobile communication device 10 may not share the same subcarrier.
- the mobile communication device 10 When the mobile communication device 10 includes three or more (including three) antennas, there are a plurality of standby antennas.
- a transmission pattern of the reference signal a pattern in which the reference signal is transmitted from all standby antennas may be provided, or the reference signal may be transmitted from only a part of the standby antenna (for example, a standby antenna having a good quality index).
- a pattern to be transmitted may be provided.
- the baseband processing unit 23 compares not only the standby antennas and the transmission antennas but also the quality indexes of the standby antennas. . Then, the baseband processing unit 23 selects a standby antenna that transmits the reference signal based on the comparison result.
- the functions of the mobile communication device 10 and the base station device 20 in the above-described embodiment for example, the functions of the baseband processing unit 17 and the baseband processing unit 23, are built in the mobile communication device 10 and the base station device 20. (Not shown) may be realized. In that case, a program for realizing this function may be recorded on a computer-readable recording medium, and the program recorded on the recording medium may be read into a computer system and executed.
- the “computer system” includes an OS and hardware such as peripheral devices.
- the “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM or a CD-ROM, and a hard disk incorporated in a computer system.
- the “computer-readable recording medium” dynamically holds a program for a short time, like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. It is also possible to include those that hold a program for a certain time, such as a volatile memory inside a computer system serving as a server or client in that case.
- the program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.
- the present invention can be applied in the field of mobile communications.
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Abstract
Description
本願は、2008年6月6日に、日本に出願された特願2008-149885号に基づき優先権を主張し、その内容をここに援用する。
以下、本発明の第1の実施形態による移動通信装置を図面を参照して説明する。図1は同実施形態における移動通信システム全体のネットワーク構成を示すブロック図である。この図に示す移動通信システムは、複数のアンテナを備えた移動通信装置10、30と、基地局装置20とを含み、基地局装置20は移動通信網40に接続される。移動通信装置10は、基地局装置20と無線通信を行い、基地局装置20を介することにより、または基地局装置20および移動通信網40を介することにより、他の移動通信装置30と無線通信を行う。移動通信装置10は、送信アンテナ及び待機アンテナを備え、この複数のアンテナにより、基地局装置20に対し、リファレンス信号を送信する。特に、待機アンテナを用いて送信されるリファレンス信号は、基地局装置20において、移動通信装置10と無線通信を行う上でどのアンテナを用いることが適切であるか判断するために送信される。
次に、前述した第1の実施形態の変形例を説明する。第1の実施形態では、移動通信装置10が2本のアンテナを備え、基地局装置20が1本のアンテナを備える場合を例として説明したが、移動通信装置10、基地局装置20のそれぞれが備えるアンテナの本数は、これに限定されるわけではなく、移動通信装置10が3本以上(3本を含む)のアンテナを有するように構成されてもよいし、基地局装置20が2本以上(2本を含む)のアンテナを有するように構成されてもよく、その際には、移動通信装置10の複数のアンテナから送信されるリファレンス信号が相互に同じサブキャリアを共有しないようにする。
Claims (7)
- 移動通信装置及び基地局装置を備えて相互に無線通信を行う移動通信システムであって、
前記移動通信装置は、アンテナ、送信部、受信部及びベースバンド処理部を備え、
前記基地局装置は、アンテナ、送信部、受信部及びベースバンド処理部を備え、
前記移動通信装置のアンテナ、送信部及び受信部は、複数設けられており、前記移動通信装置のベースバンド処理部は、前記アンテナ及び前記受信部を介して受信した前記基地局装置の指示に従って、データ信号の送信に用いる送信部及びアンテナを選択して、これらを介して、データ信号を前記基地局装置へ送信するとともに、規定値を有する複数のリファレンス信号を複数の送信部及びアンテナを介して前記基地局装置へ送信し、かつ、その際にリファレンス信号の送信周波数が重複しないようにし、
前記基地局装置のベースバンド処理部は、前記アンテナ及び前記受信部を介して受信したリファレンス信号の品質に基づいて、前記移動通信装置のいずれのアンテナ及び送信部を介してデータ信号を送信するかの情報及び複数のリファレンス信号を前記移動通信装置の複数の送信部及びアンテナに分担させて送信するかの情報に関する信号を、前記送信部及び前記アンテナを介して前記移動通信装置へ送信する、
ことを特徴とする移動通信システム。 - 前記移動通信装置のアンテナ、送信部及び受信部は、それぞれ2組設けられていることを特徴とする請求項1に記載の移動通信システム。
- 前記移動通信装置のアンテナ、送信部及び受信部は、それぞれ3組以上設けられていることを特徴とする請求項1に記載の移動通信システム。
- 前記基地局装置のベースバンド処理部は、前記移動通信装置が送信するデータ信号と少なくとも同じ周波数でのリファレンス信号を、ともに、同一の送信部及びアンテナから送信するように前記移動通信装置へ指示することを特徴とする請求項1に記載の移動通信システム。
- 前記移動通信装置のベースバンド処理部は、前記移動通信装置がデータ信号を送信するのに用いる送信部及びアンテナとは別個の送信部及びアンテナから前記リファレンス信号を送信することを特徴とする請求項1に記載の移動通信システム。
- 移動通信装置及び基地局装置を備えて相互に無線通信を行う移動通信システムにおける移動通信装置であって、
アンテナ、送信部、受信部及びベースバンド処理部を備え、
前記アンテナ、送信部及び受信部は、複数設けられており、前記ベースバンド処理部は、前記アンテナ及び前記受信部を介して受信した前記基地局装置の指示に従って、データ信号の送信に用いる送信部及びアンテナを選択して、これらを介して、データ信号を前記基地局装置へ送信するとともに、規定値を有する複数のリファレンス信号を複数の送信部及びアンテナを介して前記基地局装置へ送信し、かつ、その際にリファレンス信号の送信周波数が重複しないようにする、
ことを特徴とする移動通信装置。 - アンテナ、送信部、受信部及びベースバンド処理部を備える移動通信装置と、アンテナ、送信部、受信部及びベースバンド処理部を備える基地局装置とからなり、相互に無線通信を行う移動通信システムにおける移動通信方法であって、
前記移動通信装置のアンテナ、送信部及び受信部は、複数設けられており、前記移動通信装置のベースバンド処理部が、前記アンテナ及び前記受信部を介して受信した前記基地局装置の指示に従って、データ信号の送信に用いる送信部及びアンテナを選択して、これらを介して、データ信号を前記基地局装置へ送信するとともに、規定値を有する複数のリファレンス信号を複数の送信部及びアンテナを介して前記基地局装置へ送信し、かつ、その際にリファレンス信号の送信周波数が重複しないようにし、
前記基地局装置のベースバンド処理部が、前記アンテナ及び前記受信部を介して受信したリファレンス信号の品質に基づいて、前記移動通信装置のいずれのアンテナ及び送信部を介してデータ信号を送信するかの情報及び複数のリファレンス信号を前記移動通信装置の複数の送信部及びアンテナに分担させて送信するかの情報に関する信号を、前記送信部及び前記アンテナを介して前記移動通信装置へ送信する、
ことを特徴とする移動通信方法。
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JP2010515830A JP5288502B2 (ja) | 2008-06-06 | 2009-05-22 | 移動通信システム、移動通信装置及び移動通信方法 |
US12/992,898 US8437787B2 (en) | 2008-06-06 | 2009-05-22 | Mobile communication system, mobile communication device, and method for employing antenna and transmitting unit selection for transmission of reference and data signals |
CN2009801205133A CN102047719B (zh) | 2008-06-06 | 2009-05-22 | 移动通信系统、移动通信装置以及移动通信方法 |
EP09758225.8A EP2285155A4 (en) | 2008-06-06 | 2009-05-22 | MOBILE COMMUNICATION SYSTEM, MOBILE COMMUNICATION DEVICE AND MOBILE COMMUNICATION METHOD |
MX2010013250A MX2010013250A (es) | 2008-06-06 | 2009-05-22 | Sistema de comunicacion movil, dispositivo de comunicacion movil y metodo de comunicacion movil. |
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US20120287885A1 (en) * | 2010-04-28 | 2012-11-15 | Qian Dai | Method and Device for Distributing and Scheduling Wireless Resources in Orthogonal Frequency Division Multiplexing System |
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EP2883321A1 (en) * | 2012-08-09 | 2015-06-17 | Telefonaktiebolaget L M Ericsson (Publ) | Microwave link control |
US9380466B2 (en) | 2013-02-07 | 2016-06-28 | Commscope Technologies Llc | Radio access networks |
US9936470B2 (en) | 2013-02-07 | 2018-04-03 | Commscope Technologies Llc | Radio access networks |
US9414399B2 (en) | 2013-02-07 | 2016-08-09 | Commscope Technologies Llc | Radio access networks |
US9237545B2 (en) * | 2013-04-15 | 2016-01-12 | Qualcomm Incorporated | Varying processes to control transmission characteristics for position determination operations |
CA3167284A1 (en) * | 2014-06-09 | 2015-12-17 | Airvana Lp | Radio access networks |
CN116318589A (zh) | 2017-10-03 | 2023-06-23 | 康普技术有限责任公司 | C-ran中的动态下行链路重用 |
US11304213B2 (en) | 2018-05-16 | 2022-04-12 | Commscope Technologies Llc | Dynamic uplink reuse in a C-RAN |
EP3804419A4 (en) | 2018-06-08 | 2022-02-23 | CommScope Technologies LLC | AUTOMATIC TRANSMIT POWER CONTROL FOR RADIO POINTS IN A CENTRALIZED RADIO ACCESS NETWORK THAT PROVIDE PRIMARILY WIRELESS SERVICE TO USERS LOCATED IN AN EVENT ZONE OF A VENUE |
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JP5288502B2 (ja) | 2013-09-11 |
EP2285155A4 (en) | 2016-04-06 |
US20110081930A1 (en) | 2011-04-07 |
JPWO2009147958A1 (ja) | 2011-10-27 |
EP2285155A1 (en) | 2011-02-16 |
CN102047719A (zh) | 2011-05-04 |
US8437787B2 (en) | 2013-05-07 |
MX2010013250A (es) | 2010-12-21 |
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