WO2010024315A1 - 移動通信方法、移動通信システム及び無線基地局 - Google Patents
移動通信方法、移動通信システム及び無線基地局 Download PDFInfo
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- WO2010024315A1 WO2010024315A1 PCT/JP2009/064925 JP2009064925W WO2010024315A1 WO 2010024315 A1 WO2010024315 A1 WO 2010024315A1 JP 2009064925 W JP2009064925 W JP 2009064925W WO 2010024315 A1 WO2010024315 A1 WO 2010024315A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B17/00—Monitoring; Testing
- H04B17/30—Monitoring; Testing of propagation channels
- H04B17/309—Measuring or estimating channel quality parameters
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L25/00—Baseband systems
- H04L25/02—Details ; arrangements for supplying electrical power along data transmission lines
- H04L25/0202—Channel estimation
- H04L25/0224—Channel estimation using sounding signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/0001—Arrangements for dividing the transmission path
- H04L5/0003—Two-dimensional division
- H04L5/0005—Time-frequency
- H04L5/0007—Time-frequency the frequencies being orthogonal, e.g. OFDM(A), DMT
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0048—Allocation of pilot signals, i.e. of signals known to the receiver
- H04L5/005—Allocation of pilot signals, i.e. of signals known to the receiver of common pilots, i.e. pilots destined for multiple users or terminals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0058—Allocation criteria
- H04L5/0062—Avoidance of ingress interference, e.g. ham radio channels
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/0005—Control or signalling for completing the hand-off
- H04W36/0083—Determination of parameters used for hand-off, e.g. generation or modification of neighbour cell lists
- H04W36/0085—Hand-off measurements
- H04W36/0088—Scheduling hand-off measurements
Definitions
- the present invention relates to a mobile communication method, a mobile communication system, and a radio base station in which a measurement target radio base station and peripheral radio base stations transmit a plurality of pilot symbols at a predetermined timing within a predetermined subframe at a predetermined frequency within a predetermined frequency band. About the station.
- an optimum service area of a radio base station eNB is designed according to the reception quality of a reference signal (RS: Reference Signal) from the radio base station eNB in the mobile station UE. It is configured as follows.
- the radio base station eNB # A and the radio base station eNB # B are installed close to each other and when the mobile station UE exists near the radio base station eNB # A, the mobile station There is a problem that the UE cannot accurately measure the reference signal from the radio base station eNB # B due to the influence of the signal from the radio base station eNB # A.
- the present invention has been made in view of the above-described problems, and even when a plurality of radio base stations are set close to each other, the mobile station transmits the measurement target radio base station. It is an object of the present invention to provide a mobile communication method, a mobile communication system, and a radio base station that can accurately measure pilot symbols.
- a first feature of the present invention is a mobile communication method in which a measurement target radio base station and neighboring radio base stations transmit a plurality of pilot symbols at a predetermined timing within a predetermined subframe at a predetermined frequency within a predetermined frequency band.
- the peripheral radio base station stops transmitting signals other than the predetermined signal within the predetermined subframe within the predetermined frequency band; and the measurement target radio base station transmits the predetermined signal transmission frequency and A step of changing a transmission frequency or transmission timing of the pilot symbol so as not to overlap with a transmission timing, and a step of measuring a reception quality of the pilot symbol transmitted from the measurement target radio base station by a mobile station This is the gist.
- a second feature of the present invention is a mobile communication method in which a measurement target radio base station and a peripheral radio base station transmit a plurality of pilot symbols at a predetermined timing within a predetermined subframe at a predetermined frequency within a predetermined frequency band.
- the measurement target radio base station has a predetermined number of consecutive timings in the predetermined subframe at at least one of the predetermined frequencies in the predetermined frequency band, or a predetermined number in the predetermined frequency band. Transmitting the pilot symbol at at least one of the predetermined timings in the predetermined subframe at a frequency of a predetermined frequency, and a mobile station measuring reception quality of the pilot symbol transmitted by the measurement target radio base station And having a process.
- a third feature of the present invention is a mobile communication method in which a measurement target radio base station and neighboring radio base stations transmit a plurality of pilot symbols at a predetermined timing within a predetermined subframe at all frequencies within a predetermined frequency band.
- the measurement target radio base station transmitting the pilot symbol at a predetermined number of consecutive times in the predetermined subframe at a predetermined number of consecutive frequencies in the predetermined frequency band; and And measuring the reception quality of the pilot symbol transmitted by the measurement target radio base station.
- the measurement target radio base station and the neighboring radio base stations are configured to transmit a plurality of pilot symbols at a predetermined timing within a predetermined subframe at a predetermined frequency within a predetermined frequency band.
- the neighboring radio base station is configured to stop transmission of a signal other than a predetermined signal within the predetermined subframe within the predetermined frequency band, and the measurement target radio base The gist is that the station is configured to change the transmission frequency or transmission timing of the pilot symbol so as not to overlap the transmission frequency and transmission timing of the predetermined signal.
- the measurement target radio base station and the neighboring radio base stations are configured to transmit a plurality of pilot symbols at a predetermined timing within a predetermined subframe at a predetermined frequency within a predetermined frequency band.
- a radio base station that functions as the measurement target radio base station, and at a predetermined number of consecutive timings in the predetermined subframe in at least one of the predetermined frequencies within the predetermined frequency band Alternatively, the gist is that the pilot symbol is transmitted at at least one of the predetermined timings in the predetermined subframe at a predetermined number of consecutive frequencies in the predetermined frequency band.
- the measurement target radio base station and the neighboring radio base stations are configured to transmit a plurality of pilot symbols at a predetermined timing within a predetermined subframe at a predetermined frequency within a predetermined frequency band.
- a radio base station that functions as the measurement-target radio base station, and at a predetermined number of consecutive timings in the predetermined subframe at a predetermined number of consecutive frequencies in the predetermined frequency band is that it is configured to transmit pilot symbols.
- the mobile station accurately measures the pilot symbols transmitted by the measurement target radio base station. It is possible to provide a mobile communication method, a mobile communication system, and a radio base station.
- FIG. 1 is an overall configuration diagram of a mobile communication system according to a first embodiment of the present invention.
- FIG. 2 is a functional block diagram of the measurement target radio base station according to the first embodiment of the present invention.
- FIG. 3 is a diagram for explaining a reference signal transmission method of a radio base station in the mobile communication system according to the first embodiment of the present invention.
- FIG. 4 is a functional block diagram of the mobile station according to the first embodiment of the present invention.
- FIG. 5 is a flowchart showing the operation of the mobile communication system according to the first embodiment of the present invention.
- FIG. 6 is a diagram for explaining parameter setting or area adjustment in the mobile communication system according to the first embodiment of the present invention.
- FIG. 1 is an overall configuration diagram of a mobile communication system according to a first embodiment of the present invention.
- FIG. 2 is a functional block diagram of the measurement target radio base station according to the first embodiment of the present invention.
- FIG. 3 is a diagram for explaining a reference signal transmission method of a radio base station
- FIG. 7 is a diagram for explaining a reference signal transmission method of a radio base station in the mobile communication system according to the first modification of the present invention.
- FIG. 8 is a flowchart showing the operation of the mobile communication system according to the first modification of the present invention.
- FIG. 9 is a diagram for explaining a reference signal transmission method of the radio base station in the mobile communication system according to the second modification of the present invention.
- FIG. 10 is a flowchart showing the operation of the mobile communication system according to the second modification of the present invention.
- the mobile communication system is an LTE mobile communication system, and includes a radio base station eNB # A, a radio base station eNB # B, and a mobile station UE. ing.
- the radio base station eNB # B is a measurement target radio base station that is a measurement target of the reference signal (pilot symbol) in the mobile station UE, and the radio base station eNB # A is the radio base station eNB # B. It is a peripheral radio base station installed in the vicinity.
- a signal transmitted by the radio base station eNB # A at a predetermined timing within a predetermined subframe at a predetermined frequency within a predetermined frequency band is transmitted by the radio base station eNB # B at a predetermined subframe at a predetermined frequency within the predetermined frequency band.
- the reference signal transmitted at a predetermined timing is affected by interference or the like.
- the radio base station eNB # A is installed as the peripheral radio base station.
- the present invention is not limited to this case, and a plurality of peripheral radio base stations are installed. It is also applicable to the cases that have been
- the measurement target radio base station eNB # B includes a neighboring radio base station information storage unit 11 and a reference signal transmission unit 12.
- the peripheral radio base station information storage unit 11 is configured to store information related to the peripheral radio base station (for example, the radio base station eNB # A) of the measurement target radio base station eNB # B.
- the peripheral radio base station information storage unit 11 is configured to store a transmission frequency and a transmission timing of a predetermined signal in the peripheral radio base station as information related to the peripheral radio base station.
- the predetermined signal is a signal transmitted at a predetermined timing in a predetermined subframe at a predetermined frequency within a predetermined frequency band, and includes a plurality of pilot symbols and control signal symbols.
- the pilot symbols constituting the predetermined signal are configured to be transmitted at the transmission timing # 0 in the first half of the subframe # 0 at the frequency f3 in the frequency band F. Has been.
- Each peripheral radio base station receives a predetermined instruction in a predetermined subframe within a predetermined frequency band when receiving a predetermined instruction from a predetermined device (for example, an operator apparatus) in the mobile communication system according to the present embodiment. Transmission of other signals (specifically, symbols constituting signals other than the predetermined signal) is stopped.
- the reference signal transmission unit 12 is configured to transmit a reference signal (specifically, a pilot symbol constituting the reference signal) at a predetermined timing within a predetermined subframe at a predetermined frequency within the predetermined frequency band. Yes.
- the reference signal transmission unit 12 is configured to transmit the reference signal at the same transmission frequency and transmission timing as the transmission frequency and transmission timing of the predetermined signal in the surrounding radio base station during normal times.
- the reference signal transmitter 12 transmits a reference signal (specifically, pilot symbols constituting the reference signal) so as not to overlap the transmission frequency and transmission timing of the predetermined signal in the neighboring radio base station.
- the transmission frequency or the transmission timing is changed.
- the transmission frequency and transmission timing of pilot symbols in the neighboring radio base station eNB # A and the pilot in the measurement target radio base station eNB # B The symbol transmission frequency and transmission timing overlap.
- the symbol transmission frequency and transmission timing are configured to be shifted by one symbol (or 1 to 6 symbols) in the time axis direction with respect to the pilot symbol transmission frequency and transmission timing in the neighboring radio base station eNB # A. ing.
- the transmission frequency and transmission timing of the pilot symbols in the measurement target radio base station eNB # B are
- the radio base station eNB # A is configured to be shifted by a predetermined number of symbols in the frequency axis direction or in both the frequency axis direction and the time axis direction with respect to the transmission frequency and transmission timing of pilot symbols in the radio base station eNB # A. Also good.
- the mobile station UE includes a reference signal receiving unit 21 and a measuring unit 22.
- the reference signal receiving unit 21 is configured to receive a reference signal (a pilot symbol constituting the reference signal) transmitted from the measurement target radio base station eNB # B.
- the reference signal receiving unit 21 stores in advance the transmission frequency and transmission timing of the reference signal in the normal measurement target radio base station eNB # B.
- the reference signal receiving unit 21 may store in advance the transmission frequency and transmission timing of the reference signal during measurement of the reference signal from the measurement target radio base station eNB # B by the mobile station UE. You may notify by the predetermined
- the reference signal receiving unit 21 transmits the reference signal transmission frequency according to whether there is an instruction from a predetermined device (for example, an operator device) or the measurement target radio base station eNB # B in the mobile communication system according to the present embodiment. And the transmission timing is determined.
- a predetermined device for example, an operator device
- the measurement target radio base station eNB # B in the mobile communication system according to the present embodiment.
- the measuring unit 22 is configured to measure the reception quality of the reference signal received by the reference signal receiving unit 21.
- step S101 the neighboring radio base station eNB # A instructs to start measurement of the reference signal from the measurement target radio base station eNB # B by the mobile station UE from the above-described predetermined device.
- a predetermined instruction to be received is received, transmission of a signal (for example, a data signal) other than the predetermined signal is stopped within a predetermined subframe within a predetermined frequency band.
- step S102 when the measurement target radio base station eNB # B receives the predetermined instruction, the measurement target radio base station eNB # B transmits the transmission frequency and transmission timing of the predetermined signal in the peripheral radio base station eNB # A within the predetermined subframe within the predetermined frequency band.
- the transmission frequency or transmission timing of the reference signal is changed so as not to overlap.
- step S103 the mobile station UE receives the reference signal from the measurement target radio base station eNB # B, and measures the reception quality of the reference signal.
- step S104 the operator adjusts the parameters of the peripheral radio base station eNB # A and the measurement radio base station eNB # B based on the reception quality of the reference signal measured by the mobile station UE, and the peripheral radio base station eNB Adjustment of the service area of #A and measurement radio base station eNB # B is performed.
- the operator adjusts the parameters of the peripheral radio base station eNB # A and the measurement radio base station eNB # B to thereby adjust the service area of the peripheral radio base station eNB # A as shown in FIG. From the state in which the (signal arrival area) #A and the service area (signal arrival area) #B of the measurement radio base station eNB # B overlap, the service of the neighboring radio base station eNB # A as shown in FIG. Adjustment is made so that area (signal arrival area) #A and service area (signal arrival area) #B of measurement radio base station eNB # B do not overlap.
- the neighboring radio base station eNB # A receives the reference signal from the measurement target radio base station eNB # B by the mobile station UE from the predetermined device, the measurement target radio base station eNB # B, the mobile station UE, and the like.
- a signal for example, a data signal
- the mobile station UE measures the reference signal from the measurement target radio base station eNB # B
- the neighboring radio base station eNB # A A signal other than the predetermined signal for example, a data signal
- the measurement target radio base station eNB # B does not overlap the transmission frequency and transmission timing of the predetermined signal in the neighboring radio base station eNB # A.
- the mobile station UE In order to change the transmission frequency or transmission timing of the reference signal, the mobile station UE is not affected by the interference from the signal from the neighboring radio base station eNB # A, and the reference signal from the measurement target radio base station eNB # B The reception quality of (pilot symbols constituting the reference signal) can be accurately measured.
- Modification 1 With reference to FIG.7 and FIG.8, the mobile communication system which concerns on the modification 1 of this invention is demonstrated.
- the mobile communication system according to the first modification will be described by focusing on differences from the mobile communication system according to the first embodiment of the present invention.
- the reference signal transmission unit 12 of the measurement target radio base station eNB # B includes pilot symbols constituting the reference signal at a predetermined number of consecutive timings in a predetermined subframe at at least one of the predetermined frequencies in the predetermined frequency band. Is configured to send.
- the reference signal transmission unit 12 transmits pilot symbols constituting the reference signal at all timings in the subframe # 0 of the frequency f6 in the frequency band F. It may be configured to transmit.
- the reference signal transmission unit 12 is configured to transmit the pilot symbols constituting the reference signal at all timings in the subframe # 0 of the frequency that is not used for transmission of the predetermined signal in the peripheral radio base station. May be.
- the reference signal transmission unit 12 is configured to transmit a pilot symbol constituting the reference signal at at least one of predetermined timings in a predetermined subframe at a predetermined number of consecutive frequencies in the predetermined frequency band. It may be.
- the reference signal transmission unit 12 performs the timing within the transmission timing # 0 in the first half portion of the subframe # 0 of all the frequencies f1 to f12 in the frequency band F. It may be configured to transmit pilot symbols constituting the reference signal at # 0 or the like.
- the reference signal transmission unit 12 configures the reference signal at a timing not used for transmitting a predetermined signal in the peripheral radio base station in the subframe # 0 of all the frequencies f1 to f12 in the frequency band F. It may be configured to transmit pilot symbols.
- the measurement unit 22 of the mobile station UE since the correlation between the pilot symbols received by the reference signal receiving unit 21 of the mobile station UE is high, the measurement unit 22 of the mobile station UE performs the pilot continuous in the frequency axis direction or the time axis direction.
- the reception quality of the reference signal may be measured by calculating an average value for the symbol.
- step S201 the neighboring radio base station eNB # A instructs to start measurement of the reference signal from the measurement target radio base station eNB # B by the mobile station UE from the above-described predetermined device.
- a predetermined instruction to be received is received, transmission of a signal (for example, a data signal) other than the predetermined signal is stopped within a predetermined subframe within a predetermined frequency band.
- step S202 when the measurement target radio base station eNB # B receives the predetermined instruction described above, the measurement target radio base station eNB # B receives all the timings in the subframe # 0 of the frequency f6 in the frequency band F or all in the frequency band F.
- the pilot symbols constituting the reference signal are transmitted at timing # 0 within transmission timing # 0 within the first half of subframe # 0 of frequencies f1 to f12.
- steps S203 to S205 are the same as the operations in steps S103 to S105 in FIG.
- the mobile station UE when the mobile station UE measures the reference signal from the measurement target radio base station eNB # B, the neighboring radio base station eNB # A is other than the predetermined signal.
- a signal (for example, a data signal or the like) is not transmitted, and the transmission frequency and transmission timing of the reference signal in the measurement target radio base station eNB # B, and the transmission frequency and transmission timing of the predetermined signal in the neighboring radio base station eNB # A Therefore, the mobile station UE accurately receives pilot symbols transmitted at a frequency and timing that do not overlap with the transmission frequency and transmission timing of the predetermined signal in the neighboring radio base station eNB # A. Quality can be measured.
- Modification 2 With reference to FIG.9 and FIG.10, the mobile communication system which concerns on the modification 2 of this invention is demonstrated.
- the mobile communication system according to the second modification will be described by focusing on differences from the mobile communication system according to the first embodiment of the present invention.
- the reference signal transmission unit 12 of the measurement target radio base station eNB # B includes pilot symbols constituting a reference signal at a predetermined number of consecutive timings in a predetermined subframe at a predetermined number of consecutive frequencies in the predetermined frequency band. Is configured to send.
- the reference signal transmission unit 12 performs all the timings in the subframe # 0 in all the frequencies f1 to f12 in the frequency band F (the first half portion).
- the pilot symbols constituting the reference signal may be transmitted in # 0 to # 6 and # 0 to # 6 in the latter half.
- the measurement unit 22 of the mobile station UE since the correlation between pilot symbols received by the reference signal receiving unit 21 of the mobile station UE is high, the measurement unit 22 of the mobile station UE performs the pilot that is continuous in the frequency axis direction or the time axis direction.
- the reception quality of the reference signal may be measured by calculating an average value for the symbol.
- step S301 the neighboring radio base station eNB # A instructs to start measurement of the reference signal from the measurement target radio base station eNB # B by the mobile station UE from the above-described predetermined device.
- a predetermined instruction to be received is received, transmission of a signal (for example, a data signal) other than the predetermined signal is stopped within a predetermined subframe within a predetermined frequency band.
- step S302 when the measurement target radio base station eNB # B receives the predetermined instruction described above, the measurement target radio base station eNB # B configures the reference signal at all timings in the subframe # 0 of all the frequencies f1 to f12 in the frequency band F. Pilot symbols to be transmitted.
- steps S303 to S305 are the same as those in steps S103 to S105 in FIG.
- the neighboring radio base station eNB # A is not a predetermined signal.
- a signal (for example, a data signal or the like) is not transmitted, and the transmission frequency and transmission timing of the reference signal in the measurement target radio base station eNB # B, and the transmission frequency and transmission timing of the predetermined signal in the neighboring radio base station eNB # A Therefore, the mobile station UE accurately receives pilot symbols transmitted at a frequency and timing that do not overlap with the transmission frequency and transmission timing of the predetermined signal in the neighboring radio base station eNB # A. Quality can be measured.
- radio base station eNB and the mobile station UE described above may be implemented by hardware, may be implemented by a software module executed by a processor, or may be implemented by a combination of both. .
- Software modules include RAM (Random Access Memory), flash memory, ROM (Read Only Memory), EPROM (Erasable Programmable ROM), EEPROM (Electronically Erasable and Programmable, Removable ROM, and Hard Disk). Alternatively, it may be provided in an arbitrary format storage medium such as a CD-ROM.
- the storage medium is connected to the processor so that the processor can read and write information from and to the storage medium. Further, such a storage medium may be integrated in the processor. Further, such a storage medium and a processor may be provided in the ASIC. Such an ASIC may be provided in the radio base station eNB or the mobile station UE. Further, the storage medium and the processor may be provided as a discrete component in the radio base station eNB or the mobile station UE.
Abstract
Description
図1乃至図4を参照して、本発明の第1の実施形態に係る移動通信システムの構成について説明する。
図5を参照して、本発明の第1の実施形態に係る移動通信システムの動作について説明する。
本発明の第1の実施形態に係る移動通信システムによれば、移動局UEが、測定対象無線基地局eNB#Bからの参照信号を測定する際には、周辺無線基地局eNB#Aが、所定信号以外の信号(例えば、データ信号等)を送信せず、かつ、測定対象無線基地局eNB#Bが、周辺無線基地局eNB#Aにおける所定信号の送信周波数及び送信タイミングと重ならないように、参照信号の送信周波数又は送信タイミングを変更するため、移動局UEは、周辺無線基地局eNB#Aからの信号による干渉の影響を受けることなく、測定対象無線基地局eNB#Bからの参照信号(参照信号を構成するパイロットシンボル)の受信品質を精度よく測定することができる。
図7及び図8を参照して、本発明の変更例1に係る移動通信システムについて説明する。以下、本変更例1に係る移動通信システムについて、本発明の第1の実施形態に係る移動通信システムとの相違点に着目して説明する。
図9及び図10を参照して、本発明の変更例2に係る移動通信システムについて説明する。以下、本変更例2に係る移動通信システムについて、本発明の第1の実施形態に係る移動通信システムとの相違点に着目して説明する。
Claims (6)
- 測定対象無線基地局及び周辺無線基地局が、所定周波数帯域内の所定周波数における所定サブフレーム内の所定タイミングで、複数のパイロットシンボルを送信する移動通信方法であって、
前記周辺無線基地局が、前記所定周波数帯域内における前記所定サブフレーム内で、所定信号以外の信号の送信を停止する工程と、
前記測定対象無線基地局が、前記所定信号の送信周波数及び送信タイミングと重ならないように、前記パイロットシンボルの送信周波数又は送信タイミングを変更する工程と、
移動局が、前記測定対象無線基地局によって送信された前記パイロットシンボルの受信品質を測定する工程とを有することを特徴とする移動通信方法。 - 測定対象無線基地局及び周辺無線基地局が、所定周波数帯域内の所定周波数における所定サブフレーム内の所定タイミングで、複数のパイロットシンボルを送信する移動通信方法であって、
前記測定対象無線基地局が、前記所定周波数帯域内の前記所定周波数の少なくとも1つにおける前記所定サブフレーム内の連続する所定数のタイミングで、或いは、前記所定周波数帯域内の連続する所定数の周波数における前記所定サブフレーム内の前記所定タイミングの少なくとも1つで、前記パイロットシンボルを送信する工程と、
移動局が、前記測定対象無線基地局によって送信された前記パイロットシンボルの受信品質を測定する工程とを有することを特徴とする移動通信方法。 - 測定対象無線基地局及び周辺無線基地局が、所定周波数帯域内の全ての周波数における所定サブフレーム内の所定タイミングで、複数のパイロットシンボルを送信する移動通信方法であって、
前記測定対象無線基地局が、前記所定周波数帯域内の連続する所定数の周波数における前記所定サブフレーム内の連続する所定数のタイミングで、前記パイロットシンボルを送信する工程と、
移動局が、前記測定対象無線基地局によって送信された前記パイロットシンボルの受信品質を測定する工程とを有することを特徴とする移動通信方法。 - 測定対象無線基地局及び周辺無線基地局が、所定周波数帯域内の所定周波数における所定サブフレーム内の所定タイミングで、複数のパイロットシンボルを送信するように構成されている移動通信システムであって、
前記周辺無線基地局は、前記所定周波数帯域内における前記所定サブフレーム内で、所定信号以外の信号の送信を停止するように構成されており、
前記測定対象無線基地局は、前記所定信号の送信周波数及び送信タイミングと重ならないように、前記パイロットシンボルの送信周波数又は送信タイミングを変更するように構成されていることを特徴とする移動通信システム。 - 測定対象無線基地局及び周辺無線基地局が、所定周波数帯域内の所定周波数における所定サブフレーム内の所定タイミングで、複数のパイロットシンボルを送信するように構成されている移動通信システムにおいて、該測定対象無線基地局として機能する無線基地局であって、
前記所定周波数帯域内の前記所定周波数の少なくとも1つにおける前記所定サブフレーム内の連続する所定数のタイミングで、或いは、前記所定周波数帯域内の連続する所定数の周波数における前記所定サブフレーム内の前記所定タイミングの少なくとも1つで、前記パイロットシンボルを送信するように構成されていることを特徴とする無線基地局。 - 測定対象無線基地局及び周辺無線基地局が、所定周波数帯域内の所定周波数における所定サブフレーム内の所定タイミングで、複数のパイロットシンボルを送信するように構成されている移動通信システムにおいて、該測定対象無線基地局として機能する無線基地局であって、
前記所定周波数帯域内の連続する所定数の周波数における前記所定サブフレーム内の連続する所定数のタイミングで、前記パイロットシンボルを送信するように構成されていることを特徴とする無線基地局。
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US20110211627A1 (en) | 2011-09-01 |
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