WO2011052665A1 - 大セル基地局及び通信制御方法 - Google Patents
大セル基地局及び通信制御方法 Download PDFInfo
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- WO2011052665A1 WO2011052665A1 PCT/JP2010/069129 JP2010069129W WO2011052665A1 WO 2011052665 A1 WO2011052665 A1 WO 2011052665A1 JP 2010069129 W JP2010069129 W JP 2010069129W WO 2011052665 A1 WO2011052665 A1 WO 2011052665A1
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- cell base
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- large cell
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/50—Allocation or scheduling criteria for wireless resources
- H04W72/54—Allocation or scheduling criteria for wireless resources based on quality criteria
- H04W72/541—Allocation or scheduling criteria for wireless resources based on quality criteria using the level of interference
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W16/00—Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
- H04W16/24—Cell structures
- H04W16/32—Hierarchical cell structures
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W16/00—Network planning, e.g. coverage or traffic planning tools; Network deployment, e.g. resource partitioning or cells structures
- H04W16/02—Resource partitioning among network components, e.g. reuse partitioning
- H04W16/06—Hybrid resource partitioning, e.g. channel borrowing
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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
- H04W72/27—Control channels or signalling for resource management between access points
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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
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W92/00—Interfaces specially adapted for wireless communication networks
- H04W92/16—Interfaces between hierarchically similar devices
- H04W92/20—Interfaces between hierarchically similar devices between access points
Definitions
- the present invention provides a large cell base station in which a large cell is formed, a small cell base station that forms a small cell smaller than the large cell is installed in the large cell, and a wireless terminal is connected, and The present invention relates to a communication control method in a large cell base station.
- LTE standardized by 3GPP, a standardization organization for wireless communication systems, as a next-generation wireless communication system that realizes higher-speed and larger-capacity communication than the currently used third-generation and 3.5-generation wireless communication systems There is.
- the technical specification of LTE has been determined as 3GPP Release 8.
- Release 9 which is an improved version of Release 8
- LTE Advanced which is an advanced version of LTE
- a small cell base that is a small base station that can be installed indoors by forming a cell (referred to as a small cell) that is a communication area having a radius of about [m] to about a dozen [m].
- Standardization of detailed functions and requirements of the station (Home eNodeB) is in progress.
- a small cell base station distributes traffic of a large cell base station (Macro eNodeB) that forms a large cell (large cell), which is a communication area with a radius of several hundred meters, and covers a dead zone in the large cell. It is installed for the purpose.
- radio communication in the small cell base station may cause interference in radio communication in the radio terminal connected to the large cell base station.
- an interface between a large cell base station and a small cell base station is set, and the large cell base station transmits a predetermined message to the small cell base station.
- the large cell base station determines whether or not the wireless terminal is receiving interference from the small cell base station based on RSRP from the wireless terminal, and based on the CQI from the wireless terminal. To determine the channel state.
- this CQI is a value representative of communication quality in a plurality of resource blocks such as an average value of each CQI in a plurality of resource blocks, the following problem occurs.
- the frequency band corresponding to the resource block restricted in use in the small cell base station becomes the CQI. It may overlap with only part of the corresponding frequency band.
- the CQI in the frequency band corresponding to the CQI includes a band that receives interference and a band that does not receive interference, and only the band that does not receive interference. It becomes lower than the case of.
- the use efficiency of the resource block may decrease.
- the present invention provides a large cell base station capable of appropriately reducing interference that a small cell base station gives to a wireless terminal connected to the large cell base station, while suppressing a decrease in use efficiency of the radio resources, and
- An object is to provide a communication control method.
- a first feature of the present invention is that a small cell base station (small cell base station 300a, which forms a large cell (MC1) and forms small cells (FC1, FC2) smaller than the large cell in the large cell).
- 300b is a large cell base station (large cell base station 100) to which a wireless terminal (wireless terminal 200) is connected, and a determination unit (determination unit 122) that determines radio resources to be allocated to the wireless terminal.
- the frequency band of the radio resource determined by the determination unit is narrower than a measurement unit band that is a frequency band corresponding to a measurement unit of communication quality in the radio terminal, and the radio terminal is the small cell base station
- the measurement unit band is selected from the measurement unit bands including the frequency band of the radio resource determined by the determination unit, and the selected measurement unit is selected.
- a band use restriction information transmitting unit (band use restriction information transmitting unit) that transmits band use restriction information indicating a band as a use restricted band that is a frequency band that requires use restriction in the small cell base station to the small cell base station. 124).
- the large cell base station When such a large cell base station receives interference from a small cell base station, the large cell base station provides band use restriction information indicating a use restriction band that is a frequency band that requires use restriction in the small cell base station. Send.
- the large cell base station uses the limited bandwidth to be equal to or higher than the measurement unit band that is a frequency band corresponding to the communication quality measurement unit in the wireless terminal, and the upper and lower limits coincide with the boundary of the measurement unit band.
- the use of the entire measurement unit band is limited. Therefore, the communication quality is uniform over the entire measurement unit band.
- the communication quality of the allocated frequency band is not estimated lower than the original, and a modulation method is required as in the past. It becomes lower than the above, and the use efficiency of the radio resource does not decrease.
- the second feature of the present invention is summarized in that the band use restriction information transmitting unit changes the use restriction band when the measurement unit band is changed.
- a third feature of the present invention is that a large cell base in which a large cell is formed, a small cell base station that forms a small cell smaller than the large cell is installed in the large cell, and a radio terminal is connected A communication control method in a station, wherein the large cell base station determines a radio resource to be allocated to the radio terminal, and the determined frequency band of the radio resource is a unit of measurement of communication quality in the radio terminal.
- the radio base station When the radio base station is narrower than the measurement unit band that is a corresponding frequency band and the radio terminal is receiving interference from the small cell base station, the radio base station is determined by the determination unit out of the measurement unit bands A measurement unit band including a frequency band of the selected radio resource is selected, and the selected measurement unit band is a use control that is a frequency band that needs to be restricted in the small cell base station.
- the band use restriction information indicating a band, and summarized in that and transmitting to the small cell base station.
- the present invention it is possible to appropriately reduce interference that a small cell base station gives to a radio terminal connected to the large cell base station while suppressing a decrease in the use efficiency of radio resources.
- FIG. 1 is an overall schematic configuration diagram of a radio communication system according to an embodiment of the present invention.
- FIG. 2 is a block diagram showing a configuration of the large cell base station according to the embodiment of the present invention.
- FIG. 3 is a diagram illustrating a correspondence between the S-CQI measurement unit band and the use limited band according to the embodiment of the present invention.
- FIG. 4 is a diagram showing a time chart of the operation of the wireless communication system according to the embodiment of the present invention.
- FIG. 5 is a flowchart showing a first operation of the large cell base station according to the embodiment of the present invention.
- FIG. 6 is a flowchart showing a second operation of the large cell base station according to the embodiment of the present invention.
- FIG. 1 is an overall schematic configuration diagram of a radio communication system 1 according to an embodiment of the present invention.
- the wireless communication system 1 has, for example, a configuration based on LTE Release 9 which is a 3.9th generation (3.9G) mobile phone system and LTE-Advanced which is positioned as a 4th generation (4G) mobile phone system.
- LTE Release 9 which is a 3.9th generation (3.9G) mobile phone system
- LTE-Advanced which is positioned as a 4th generation (4G) mobile phone system.
- a radio communication system 1 includes a large cell base station (for example, a macro cell base station) 100 that forms a large cell (for example, a macro cell) MC1 that is a radio wave reachable range, and a small cell that is a radio wave reachable range.
- a large cell base station for example, a macro cell base station
- MC1 large cell
- a small cell that is a radio wave reachable range
- FC1 and FC2 for example, femtocell base stations 300a and 300b forming FC1 and FC2, respectively.
- the radius of the large cell MC1 is, for example, about several hundreds [m]
- the radius of each of the small cells FC1 and FC2 is, for example, about several [m] to several tens [m].
- a radio terminal 200 is connected to the large cell base station 100.
- small cell FC when the small cells FC1 and FC2 are not distinguished, they are simply referred to as “small cell FC”, and when the small cell base stations 300a and 300b are not distinguished, they are simply referred to as “small cell base station 300”.
- the large cell base station 100 is installed in a place based on a station placement design in which a communication carrier considers inter-cell interference.
- the small cell base station 300 is configured to be small enough to be installed in an arbitrary place (specifically, indoors) by the user.
- the small cell base station 300 is installed in the large cell MC1 for the purpose of distributing traffic of the large cell base station 100 and covering a dead zone in the large cell MC1.
- the large cell base station 100 and the small cell base station 300 are connected to the network 500.
- the network 500 may be a LAN, the Internet, or the like, or may be a dedicated network set between the large cell base station 100 and the small cell base station 300.
- the downlink (link that is directed from the large cell base station 100 to the radio terminal 200, and is hereinafter referred to as “large cell”.
- the downlink (not shown from the small cell base station 300) is used for the communication.
- small cell downlink A radio signal transmitted from a small cell base station 300 to a radio terminal (not shown) using a downlink when the frequency band of the link is directed to the radio terminal and is hereinafter referred to as “small cell downlink”.
- the radio terminal 200 performing radio communication with the large cell base station 100 receives interference.
- the large cell base station 100 controls the downlink transmission power of the small cell base station 300, Reduce interference.
- FIG. 2 is a block diagram showing the configuration of the large cell base station 100.
- the large cell base station 100 adopts a PF (Propotional Fair) method, and includes an antenna unit 101, a wireless communication unit 110, a control unit 120, a storage unit 130, and a wired communication unit 140.
- PF Propotional Fair
- the wireless communication unit 110 is configured using, for example, a radio frequency (RF) circuit, a baseband (BB) circuit, and the like, and transmits and receives a wireless signal via the antenna unit 101.
- the wireless communication unit 110 performs encoding and modulation of a transmission signal and demodulation and decoding of a reception signal.
- the control unit 120 is configured using, for example, a CPU, and controls various functions provided in the large cell base station 100.
- the storage unit 130 is configured using a memory, for example, and stores various types of information used for controlling the large cell base station 100 and the like.
- the wired communication unit 140 communicates with other large cell base stations and small cell base stations 300 (not shown) via the network 500.
- the control unit 120 includes a reception processing unit 121, an acquisition unit 123, a determination unit 122, a band use restriction information transmission unit 124, an allocation unit 125, a band use restriction release information transmission unit 126, and a release unit 127.
- the reception processing unit 121 receives information indicating communication quality in the wireless terminal 200 from the wireless terminal 200 via the antenna unit 101 and the wireless communication unit 110.
- the information indicating the communication quality in radio terminal 200 includes Subband-CQI (S-CQI), which is a CQI corresponding to the SINR of a subband consisting of six resource blocks, and small cell base station 300 in radio terminal 200.
- S-CQI Subband-CQI
- RSRP small cell base station ⁇ large cell terminal
- the received signal strength of the reference signal (hereinafter referred to as “RSRP (large cell base station ⁇ large cell terminal)”) and the large cell base station to which the wireless terminal 200 is not connected in the wireless terminal 200, that is, the large cell
- the received signal strength of a reference signal from a large cell base station other than the base station 100 (hereinafter referred to as “other large cell base station”) (hereinafter referred to as “RSRP (other large cell base station)”).
- Le base station ⁇ is referred to as) and large cell terminal) ".
- the S-CQI includes information (frequency band identification information) for uniquely identifying the corresponding subband frequency band (S-CQI measurement unit band).
- RSRP small cell base station ⁇ large cell terminal
- RSRP small cell base station ⁇ large cell terminal
- RSRP small cell base station ⁇ large cell terminal
- RSRP small cell base station ⁇ large cell terminal
- an ID that is identification information of the corresponding small cell base station 300 is the ID. included.
- RSRP other large cell base station ⁇ large cell terminal
- the reception processing unit 121 receives the received S-CQI, RSRP (small cell base station ⁇ large cell terminal), RSRP (large cell base station ⁇ large cell terminal), and RSRP (other large cell base station ⁇ large cell). Terminal) determines whether or not transmission source radio terminal 200 has received interference of a predetermined value or more from small cell base station 300.
- the reception processing unit 121 calculates I (large cell terminal) which is the total amount of interference received by the radio terminal 200.
- I large cell terminal
- the following first to third methods are used.
- the reception processing unit 121 calculates the total value of RSRP (small cell base station ⁇ large cell terminal) and RSRP (other large cell base station ⁇ large cell terminal).
- the reception processing unit 121 adds a predetermined thermal noise power value to the total value of RSRP (small cell base station ⁇ large cell terminal) and RSRP (other large cell base station ⁇ large cell terminal). To obtain I (large cell terminal).
- the thermal noise power value is stored in the storage unit 130. Alternatively, the thermal noise power value is transmitted from the wireless terminal 200.
- the reception processing unit 121 calculates an SINR (Signal-to-Interference-and-Noise-Ratio) corresponding to the large cell downlink in the radio terminal 200 based on the S-CQI.
- SINR Signal-to-Interference-and-Noise-Ratio
- the reception processing unit 121 divides RSRP (large cell base station ⁇ large cell terminal) by SINR to obtain I (large cell terminal).
- the reception processing unit 121 calculates SINR corresponding to the large cell downlink in the radio terminal 200 based on the S-CQI.
- the control unit 120 is an uplink used for the communication (link from the radio terminal 200 to the large cell base station 100).
- the propagation loss (hereinafter referred to as “uplink propagation loss”) of “large cell uplink”) is measured.
- the uplink propagation loss includes distance attenuation, shadowing loss, and feature passing loss.
- the reception processing unit 121 estimates a large cell downlink propagation loss (hereinafter referred to as “downlink propagation loss”) PL from the uplink propagation loss. For example, the reception processing unit 121 regards uplink propagation loss as downlink propagation loss. In addition, the reception processing unit 121 regards a value obtained by adding a predetermined correction value to the uplink propagation loss as the downlink propagation loss.
- downlink propagation loss a large cell downlink propagation loss
- the reception processing unit 121 acquires the transmission power density (hereinafter, “downlink transmission power density”) P of the large cell downlink in the large cell base station 100.
- the downlink transmission power density P is stored in the storage unit 130.
- the reception processing unit 121 divides the downlink transmission power density P by the downlink propagation loss PL, and further divides the value obtained by the division by SINR to obtain I (large cell terminal).
- the reception processing unit 121 divides RSRP (small cell base station ⁇ large cell terminal) by I (large cell terminal).
- RSRP small cell base station ⁇ large cell terminal
- the ratio of interference received by the radio terminal 200 by the small cell base station 300 corresponding to RSRP (small cell base station ⁇ large cell terminal) to the total interference received by the radio terminal 200 (hereinafter referred to as “small cell base station”).
- interference amount ratio when the reception processing unit 121 acquires a plurality of RSRPs (small cell base station ⁇ large cell terminal), in other words, when the radio terminal 200 receives interference from the plurality of small cell base stations 300.
- the small cell base station interference amount ratio is calculated for each small cell base station 300.
- the reception processing unit 121 determines whether or not the calculated small cell base station interference amount ratio is equal to or greater than the threshold value ⁇ .
- the threshold value ⁇ is a real value (for example, 0.9) from 0 to 1, and is predetermined in the wireless communication system 1 and stored in the storage unit 130.
- the control unit 120 interrupts the resource block allocation in the PF scheme, and the small cell base station 300 causes the small cell base station 300 to allocate a resource block whose frequency band partially or completely matches the resource block allocated to the radio terminal 200. Control is performed so as not to be assigned to other wireless terminals connected to the base station 300.
- the determining unit 122 determines a resource block to be newly allocated to the radio terminal 200 that is greatly affected by interference received from the small cell base station 300.
- the acquisition unit 123 acquires a signal transmission delay time from the large cell base station 100 to the small cell base station 300 that is a source of interference received by the radio terminal 200.
- a transmission delay time is acquired for each small cell base station 300.
- the transmission delay time is determined in advance, and is a time predicted to reach the small cell base station 300 within the transmission delay time at the latest by past statistics or the like, for example, 20 [ms].
- the transmission delay time is stored in the storage unit 130, and the acquisition unit 123 reads the transmission delay time in the storage unit 130.
- the transmission delay time is a transmission delay time measured when the network in the wireless communication system 1 is configured.
- the large cell base station 100 transmits an “X2 SETUPESTREQUEST” message, and an “X2 SETUPSERESPONSE” message is returned from the small cell base station 300 as a response to the message.
- 1 ⁇ 2 of the time from the transmission of the “X2 SETUP REQUEST” message to the reception of the “X2 SETUP RESPONSE” message is measured as the transmission delay time and stored in the storage unit 130.
- the acquisition unit 123 reads the transmission delay time in the storage unit 130.
- the large cell base station 100 periodically transmits a predetermined signal (for example, ping when the network 500 is a network employing TCP / IP such as a LAN or the Internet) to the small cell base station 300. Then, the response signal from the small cell base station 300 is received.
- the acquisition unit 123 acquires 1 ⁇ 2 of the time from the transmission of the latest signal to the reception of the response signal. The acquired time is a transmission delay time. Furthermore, the acquisition unit 123 acquires a change in transmission delay time based on a reception interval of a periodically transmitted message such as an OI (Overload Indicator) from the small cell base station 300, and according to the change Correct the transmission delay time. Specifically, the transmission delay time is corrected to be longer as the message reception interval is longer.
- OI Overload Indicator
- the acquisition unit 123 acquires the transmission delay time based on the change in S-CQI transmitted from the radio terminal 200 when the use of the frequency band in the small cell base station 300 is restricted. Specifically, when the use of the frequency band in the small cell base station 300 is restricted, the S-CQI is improved more than before. In this case, the acquiring unit 123 acquires the time from when the large cell base station 100 transmits band use restriction information described later until S-CQI improves. The acquired time is a transmission delay time. In this case, the acquired transmission delay time is stored in the storage unit 130, and is used for canceling the frequency band use restriction in the small cell base station 300 or for the subsequent use restriction of the frequency band.
- the band use restriction information transmitting unit 124 When the small cell base station interference amount ratio is equal to or greater than the threshold value ⁇ , the band use restriction information transmitting unit 124 generates band use restriction information indicating the use restriction of the frequency band.
- This band use restriction information includes information on the frequency band (use restriction band) that should be restricted.
- the band use restriction information transmission unit 124 acquires a frequency band (allocated band) corresponding to the resource block determined by the determination unit 122.
- the band use restriction information transmitting unit 124 acquires, from among the S-CQIs received by the reception processing unit 121, the corresponding S-CQI measurement unit band including the entire allocated band.
- the information on the S-CQI measurement unit band is included in the S-CQI received by the reception processing unit 121.
- the band use restriction information transmitting unit 124 generates band use restriction information using the S-CQI measurement unit band corresponding to the acquired S-CQI as the use restriction band.
- the allocation area is a provisional allocation area for the large cell base station 100 to determine the use restricted band. After the use restriction of the frequency band in the small cell base station 300, the large cell base station 100 actually The bandwidth allocated to the wireless terminal 200 is not limited.
- FIG. 3 is a diagram showing the correspondence between the S-CQI measurement unit band and the use restricted band in the conventional and the present embodiments.
- the use limited band matches the allocated band, but does not match the S-CQI measurement unit band.
- the S-CQI measurement unit band includes a band that receives interference and a band that does not receive interference, and the S-CQI is lower than that of a band that does not receive interference. Therefore, even if only the resource block corresponding to the restricted frequency band is allocated to the wireless terminal, the corresponding S-CQI is lower than the original CQI corresponding to the restricted frequency band. It becomes lower than necessary, and transmission efficiency may decrease, and resource block usage efficiency may decrease.
- the band including all the allocated bands is acquired.
- the entire obtained S-CQI measurement unit band becomes a use restricted band, and the upper and lower limits of the use restricted band coincide with the boundary of the S-CQI measurement unit band. Therefore, the use of the entire S-CQI measurement unit band is restricted, and the CQI is uniform over the entire S-CQI measurement unit band, which matches the S-CQI.
- the resource block corresponding to the use restricted band is allocated to the radio terminal 200, the CQI of the allocated frequency band is not estimated lower than the original, and the modulation scheme is more than necessary as in the past. As a result, the use efficiency of the resource block does not decrease.
- the band use restriction information transmission unit 124 responds to the change, among the S-CQIs received by the reception processing unit 121, the corresponding S-CQI measurement unit band Obtains all of the allocated bandwidth. Further, the band use restriction information transmitting unit 124 generates band use restriction information using the S-CQI measurement unit band corresponding to the acquired S-CQI as the use restriction band. As a result, the use limited band can be made to follow the change in the S-CQI measurement unit band.
- the band use restriction information transmitting unit 124 transmits the generated RNTP message including the band use restriction information to the small cell base station 300 via the wired communication unit 140 and the network 500.
- the transmission destination is 1 corresponding to the RSRP (small cell base station ⁇ large cell terminal) used for calculating the small cell base station interference amount ratio that is equal to or larger than the threshold ⁇ among the small cell base station interference amount ratios.
- RSRP small cell base station ⁇ large cell terminal
- the small cell base station 300 When the small cell base station 300 receives the RNTP message including the band use restriction information, the small cell base station 300 restricts the allocation of the resource block corresponding to the frequency band included in the band use restriction information to other wireless terminals. If the resource block corresponding to the frequency band included in the band use restriction information has already been allocated, the small cell base station 300 releases the resource block.
- the allocation unit 125 determines whether or not a time corresponding to the transmission delay time has elapsed since the RNTP message including the band use restriction information was transmitted by the band use restriction information transmission unit 124.
- the band use restriction information transmitting unit 124 transmits the RNTP message including the band use restriction information to the plurality of small cell base stations 300
- the allocating unit 125 displays the transmission destination small cell base station. It is determined whether or not a time corresponding to the maximum transmission delay time has passed among the transmission delay times corresponding to 300.
- the allocation unit 125 assigns the resource block determined by the determination unit 122. And assigned to the radio terminal 200 that is greatly affected by interference from the small cell base station 300. Until the small cell base station 300 receives the RNTP message including the band use restriction information, the resource block corresponding to the frequency band included in the band use restriction information is restricted from being allocated to other wireless terminals.
- the allocation unit 125 corresponds to a time obtained by adding the transmission delay time and the allocation limitation processing time in the small cell base station 300 after the RNTP message including the band usage limitation information is transmitted.
- the resource block determined by the determination unit 122 may be allocated to the radio terminal 200 that is greatly affected by the interference received from the small cell base station 300.
- the allocation restriction processing time in the small cell base station 300 is determined in advance and stored in the storage unit 130.
- the bandwidth use restriction release information transmission unit 126 determines whether or not the resource block release timing, which is a predetermined timing after the resource block is allocated to the wireless terminal 200 by the allocation unit 125, is reached.
- the resource block release timing is, for example, a timing when a predetermined time has elapsed since the allocation unit 125 allocated the resource block to the radio terminal 200.
- the band use restriction release information transmission unit 126 If it is the release timing of the resource block, the band use restriction release information transmission unit 126 generates band use restriction release information indicating release of the use restriction of the frequency band corresponding to the resource block determined by the determination unit 122.
- This band use restriction release information includes information on the frequency band for which the use restriction should be released.
- the band use restriction release information transmitting unit 126 transmits the generated RNTP message including the band use restriction release information to the small cell base station 300 via the wired communication unit 140 and the network 500.
- the transmission destination is the same as the small cell base station 300 that is the transmission destination of the RNTP message including the band use restriction information by the band use restriction information transmission unit 124.
- the release unit 127 transmits the RNTP message including the band use restriction release information by the band use restriction release information transmission unit 126 until the time corresponding to the transmission delay time elapses before the allocation unit 125 transmits the radio terminal 200 to the radio terminal 200. Free an allocated resource block.
- the band use restriction release information transmitting unit 126 transmits an RNTP message including the band use restriction release information to the plurality of small cell base stations 300
- the release unit 127 selects the transmission destination small cell.
- the resource block allocated to the radio terminal 200 by the allocation unit 125 is released until the time corresponding to the minimum transmission delay time among the transmission delay times corresponding to each of the base stations 300 elapses. Thereafter, the control unit 120 resumes resource block allocation in the PF scheme.
- the small cell base station 300 When the small cell base station 300 receives the RNTP message including the band use restriction release information, the small cell base station 300 releases the assignment restriction on the resource block corresponding to the frequency band included in the band use restriction release information.
- FIG. 4 is a diagram showing a time chart of the operation of the wireless communication system 1.
- the large cell base station 100 includes S-CQI, RSRP (small cell base station ⁇ large cell terminal), RSRP (large cell base station) from a radio terminal connected to the large cell base station 100. Station ⁇ large cell terminal) and RSRP (other large cell base station ⁇ large cell terminal).
- the large cell base station 100 determines resource blocks to be allocated to the radio terminal 200, and includes band use restriction information in which the upper and lower limits of the use restricted band coincide with the boundary of the S-CQI measurement unit band.
- the RNTP message is transmitted to the small cell base station 300.
- the small cell base station 300 When the time corresponding to the propagation delay time (T2-T1) has elapsed since the large cell base station 100 transmitted the RNTP message including the band use restriction information to the small cell base station 300, the small cell base station 300 An RNTP message including the band use restriction information is received. Thereafter, the small cell base station 300 restricts the use of a predetermined resource block according to the band use restriction information.
- the large cell base station 100 sends the determined resource to the radio terminal 200 after a time corresponding to the propagation delay time (T2-T1) has elapsed since the transmission of the RNTP message including the band use restriction information. Allocate a block.
- the large cell base station 100 transmits an RNTP message including the band use restriction release information to the small cell base station 300. Further, the large cell base station 100 transmits the RNTP message including the band use restriction cancellation information to the small cell base station 300 until the time corresponding to the propagation delay time (T4-T3) elapses. The resource block allocated to 200 is released.
- the small cell base station 300 uses the band use when a time corresponding to the propagation delay time (T4-T3) has elapsed since the large cell base station 100 transmitted the RNTP message including the band use restriction release information. An RNTP message including restriction release information is received. Thereafter, the small cell base station 300 releases the use restriction on the resource block whose use is restricted in accordance with the band use restriction release information.
- T4-T3 propagation delay time
- FIG. 5 is a flowchart showing a first operation of the large cell base station 100.
- the control unit 120 in the large cell base station 100 is S-CQI, RSRP (small cell base station ⁇ large cell terminal), RSRP (large cell base station), which is information indicating communication quality in the radio terminal 200.
- RSRP small cell base station ⁇ large cell terminal
- RSRP large cell base station
- RSRP other large cell base station ⁇ large cell terminal
- step S102 the control unit 120 determines whether or not the radio terminal 200 has received interference of a predetermined value or more by the small cell base station 300, specifically, RSRP (small cell) with respect to the total amount of interference received by the radio terminal 200. It is determined whether or not the ratio of the interference amount (small cell base station interference amount ratio) received by the radio terminal 200 by the small cell base station 300 corresponding to (base station ⁇ large cell terminal) is equal to or greater than the threshold value ⁇ .
- RSRP small cell base station interference amount ratio
- the control unit 120 determines a resource block to be newly allocated to the radio terminal 200 in step S103.
- step S104 the control unit 120 acquires the transmission delay time of the signal to the small cell base station 300 that is the source of the interference received by the radio terminal 200.
- step S105 the control unit 120 determines the use restricted band so that the upper and lower limits of the use restricted band coincide with the boundary of the S-CQI measurement unit band received in step S101. Further, in step S ⁇ b> 106, the control unit 120 transmits an RNTP message including the generated band use restriction information to the small cell base station 300.
- step S107 the control unit 120 determines whether or not a time corresponding to the transmission delay delay time has elapsed since the transmission of the RNTP message including the band use restriction information.
- step S108 the control unit 120 transmits the resource block determined in step S103 to the wireless terminal 200. assign.
- FIG. 6 is a flowchart showing a second operation of the large cell base station 100.
- step S201 the control unit 120 in the large cell base station 100 determines whether it is a resource block release timing. If it is the release timing of the resource block, in step S202, the control unit 120 generates band use restriction release information indicating release of the use restriction of the frequency band corresponding to the resource block determined in step S104 of FIG. Furthermore, the control unit 120 transmits an RNTP message including the generated band use restriction release information to the small cell base station 300.
- step S203 the control unit 120 transmits the resource block allocated to the radio terminal 200 in step S107 after the time corresponding to the transmission delay time elapses after transmitting the RNTP message including the band use restriction release information. release.
- the large cell base station 100 restricts the use in the small cell base station 300 when the wireless terminal 200 receives interference from the small cell base station 300.
- the band use restriction information indicating the use restriction band that is a frequency band necessary for the transmission is transmitted.
- the large cell base station 100 sets the upper limit and the lower limit of the use limited band so as to coincide with the boundary of the S-CQI measurement unit band including all of the allocated bands, so that the S-CQI measurement unit band Overall use is restricted. Therefore, the CQI is uniform over the entire S-CQI measurement unit band and coincides with the S-CQI.
- the resource block corresponding to the use restricted band is allocated to the radio terminal 200, the CQI of the allocated frequency band is not estimated lower than the original, and the modulation scheme is more than necessary as in the past. As a result, the use efficiency of the resource block does not decrease.
- the band use restriction information transmission unit 124 acquires the S-CQI received by the reception processing unit 121, in which the corresponding S-CQI measurement unit band includes the entire allocated band. An S-CQI measurement unit area in which the corresponding S-CQI measurement unit band overlaps with the allocated band may be acquired. In this case, the band use restriction information transmitting unit 124 generates band use restriction information using the S-CQI measurement unit band corresponding to the acquired one or more S-CQIs as the use restriction band.
- the large cell base station 100 is a macro cell base station that forms a macro cell
- the small cell base station 300 is a femto cell base station that forms a femto cell.
- the cell base station 100 and the small cell base station 300 are not limited to these, and it is sufficient that the small cell formed by the small cell base station 300 is smaller than the large cell formed by the large cell base station 100.
- the small cell base station 300 can be a base station that forms a micro cell or a pico cell.
- the small cell base station 300 can be a base station that forms a pico cell or a femto. Furthermore, when the large cell base station 100 is a pico cell base station that forms a pico cell, the small cell base station 300 can be a base station that forms a femto.
- the large cell base station 100 minimizes the PF method, but the present invention can be similarly applied to the case where the round robin method is adopted.
- the wireless communication system 1 is configured based on LTE Release 9 or LTE-Advanced, but may be configured based on other communication standards.
- the radio communication system, the large cell base station, and the communication control method according to the present invention appropriately prevent interference that a small cell base station gives to a radio terminal connected to the large cell base station while suppressing a decrease in radio resource usage efficiency. It can be reduced and is useful as a wireless communication system or the like.
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Abstract
Description
(1.1)無線通信システムの全体概略構成
図1は、本発明の実施形態に係る無線通信システム1の全体概略構成図である。無線通信システム1は、例えば、第3.9世代(3.9G)携帯電話システムであるLTE Release9 や、第4世代(4G)携帯電話システムとして位置づけられているLTE-Advancedに基づく構成を有する。
図2は、大セル基地局100の構成を示すブロック図である。図2に示すように、大セル基地局100は、PF(Propotional Fair)方式を採用しており、アンテナ部101、無線通信部110、制御部120、記憶部130及び有線通信部140を有する。
次に、無線通信システム1の動作について説明する。
本実施形態における無線通信システム1では、大セル基地局100は、無線端末200が小セル基地局300からの干渉を受けている場合に、小セル基地局300における使用制限が必要な周波数帯域である使用制限帯域を示す帯域使用制限情報を送信する。この場合、大セル基地局100は、使用制限帯域の上限及び下限を、割り当て帯域の全部を含むS-CQI測定単位帯域の境界と一致するように設定することで、S-CQI測定単位帯域の全体が使用制限されることになる。従って、S-CQI測定単位帯域の全体にわたって、CQIが均一になり、S-CQIと一致する。このため、使用制限帯域に対応するリソースブロックが無線端末200に割り当てられる場合、その割り当てられた周波数帯域のCQIが本来よりも低く見積もられることはなく、従来のように、変調方式が必要以上に低くなって、リソースブロックの使用効率が低下することがない。
上記のように、本発明は実施形態によって記載したが、この開示の一部をなす論述及び図面はこの発明を限定するものであると理解すべきではない。この開示から当業者には様々な代替実施形態、実施例及び運用技術が明らかとなる。
Claims (3)
- 大セルを形成し、前記大セル内に前記大セルよりも小さい小セルを形成する小セル基地局が設置されるとともに、無線端末が接続される大セル基地局であって、
前記無線端末に割り当てる無線リソースを決定する決定部と、
前記決定部により決定される前記無線リソースの周波数帯域は、前記無線端末における通信品質の測定単位に対応する周波数帯域である測定単位帯域よりも狭く、
前記無線端末が前記小セル基地局からの干渉を受けている場合に、前記測定単位帯域のうち、前記決定部により決定された無線リソースの周波数帯域を含む測定単位帯域を選択し、選択した前記測定単位帯域を、前記小セル基地局における使用制限が必要な周波数帯域である使用制限帯域として示す帯域使用制限情報を、前記小セル基地局へ送信する帯域使用制限情報送信部と
を備える大セル基地局。 - 前記帯域使用制限情報送信部は、前記測定単位帯域が変化した場合に、前記使用制限帯域を変化させる請求項1に記載の大セル基地局。
- 大セルを形成し、前記大セル内に前記大セルよりも小さい小セルを形成する小セル基地局が設置されるとともに、無線端末が接続される大セル基地局における通信制御方法であって、
前記大セル基地局が、前記無線端末に割り当てる無線リソースを決定するステップと、
決定される前記無線リソースの周波数帯域は、前記無線端末における通信品質の測定単位に対応する周波数帯域である測定単位帯域よりも狭く、
前記無線基地局が、前記無線端末が前記小セル基地局からの干渉を受けている場合に、前記測定単位帯域のうち、前記決定部により決定された無線リソースの周波数帯域を含む測定単位帯域を選択し、選択した前記測定単位帯域を、前記小セル基地局における使用制限が必要な周波数帯域である使用制限帯域として示す帯域使用制限情報を、前記小セル基地局へ送信するステップと
を備える通信制御方法。
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US13/504,889 US8374615B2 (en) | 2009-10-29 | 2010-10-28 | Large cell base station and communication control method |
EP10826797.2A EP2496003A4 (en) | 2009-10-29 | 2010-10-28 | BASIC STATION WITH LARGE CELLS AND METHOD OF CONTROLLING COMMUNICATION THEREOF |
CN2010800485464A CN102598742A (zh) | 2009-10-29 | 2010-10-28 | 大小区基站和通信控制方法 |
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WO2014075458A1 (zh) * | 2012-11-16 | 2014-05-22 | 华为技术有限公司 | 工作窄带确定方法、终端设备及基站 |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN103024751B (zh) * | 2011-09-26 | 2016-01-27 | 华为技术有限公司 | 干扰控制方法和设备 |
CN103220803A (zh) * | 2012-01-19 | 2013-07-24 | 上海贝尔股份有限公司 | 进行小区参考信号干扰消除的方法 |
GB2498588B (en) * | 2012-01-20 | 2014-08-20 | Toshiba Res Europ Ltd | Wireless communication methods and apparatus |
CN104813730B (zh) * | 2012-11-23 | 2019-03-22 | 三星电子株式会社 | 用于在无线通信***中执行调度的方法和装置 |
WO2014123356A1 (en) * | 2013-02-06 | 2014-08-14 | Lg Electronics Inc. | Method and apparatus for restricting frequency in wireless communication system |
JP6397955B1 (ja) * | 2017-04-07 | 2018-09-26 | パナソニック株式会社 | 端末装置、通信システムおよび通信品質測定方法 |
JP2022069269A (ja) * | 2020-10-23 | 2022-05-11 | 株式会社デンソー | 電波マップ生成装置、電波マップ提供装置、電波マップ取得利用装置、及びプローブ情報送信装置 |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH07203518A (ja) * | 1993-12-28 | 1995-08-04 | Nippon Telegr & Teleph Corp <Ntt> | 空きチャネル検索方法 |
JP2008061250A (ja) * | 2006-08-30 | 2008-03-13 | Pantech Co Ltd | 移動通信システムのセル間干渉を制御する方法 |
JP2009249466A (ja) | 2008-04-03 | 2009-10-29 | Adeka Corp | 重金属不溶化剤及びそれを用いた土壌浄化方法。 |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
KR100946923B1 (ko) * | 2004-03-12 | 2010-03-09 | 삼성전자주식회사 | 직교 주파수 분할 다중 방식을 사용하는 통신 시스템에서 채널 품질 정보의 송수신 장치 및 방법, 그리고 그에 따른 시스템 |
JP2007203518A (ja) * | 2006-01-31 | 2007-08-16 | King Jim Co Ltd | 綴じ具及びそれを備えたファイリング用具 |
US8442069B2 (en) * | 2008-04-14 | 2013-05-14 | Qualcomm Incorporated | System and method to enable uplink control for restricted association networks |
WO2010061503A1 (ja) * | 2008-11-28 | 2010-06-03 | 日本電気株式会社 | 基地局装置、基地局装置の制御方法、通信システム、及びプログラムが格納された記憶媒体 |
JP4621797B1 (ja) * | 2009-10-29 | 2011-01-26 | 京セラ株式会社 | 大セル基地局及び通信制御方法 |
JP4484960B1 (ja) * | 2009-10-29 | 2010-06-16 | 京セラ株式会社 | 大セル基地局及び通信制御方法 |
-
2009
- 2009-10-29 JP JP2009249466A patent/JP4608705B1/ja not_active Expired - Fee Related
-
2010
- 2010-10-28 EP EP10826797.2A patent/EP2496003A4/en not_active Withdrawn
- 2010-10-28 US US13/504,889 patent/US8374615B2/en active Active
- 2010-10-28 KR KR1020127012075A patent/KR20120066070A/ko active IP Right Grant
- 2010-10-28 CN CN2010800485464A patent/CN102598742A/zh active Pending
- 2010-10-28 WO PCT/JP2010/069129 patent/WO2011052665A1/ja active Application Filing
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH07203518A (ja) * | 1993-12-28 | 1995-08-04 | Nippon Telegr & Teleph Corp <Ntt> | 空きチャネル検索方法 |
JP2008061250A (ja) * | 2006-08-30 | 2008-03-13 | Pantech Co Ltd | 移動通信システムのセル間干渉を制御する方法 |
JP2009249466A (ja) | 2008-04-03 | 2009-10-29 | Adeka Corp | 重金属不溶化剤及びそれを用いた土壌浄化方法。 |
Non-Patent Citations (2)
Title |
---|
KYOCERA: "Network Assisted Interference Coordination between Macro eNodeB and Home eNodeB in Downlink", 3GPP TSG-RAN WORKING GROUP 4 (RADIO) MEETING #52 BIS R4-093620, 12 October 2009 (2009-10-12), FRANCE, XP050393232 * |
See also references of EP2496003A4 |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2014075458A1 (zh) * | 2012-11-16 | 2014-05-22 | 华为技术有限公司 | 工作窄带确定方法、终端设备及基站 |
CN103825670A (zh) * | 2012-11-16 | 2014-05-28 | 华为技术有限公司 | 工作窄带确定方法、终端设备及基站 |
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