WO2011150801A1 - 通知参考信号配置信息的方法及设备 - Google Patents
通知参考信号配置信息的方法及设备 Download PDFInfo
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- WO2011150801A1 WO2011150801A1 PCT/CN2011/074890 CN2011074890W WO2011150801A1 WO 2011150801 A1 WO2011150801 A1 WO 2011150801A1 CN 2011074890 W CN2011074890 W CN 2011074890W WO 2011150801 A1 WO2011150801 A1 WO 2011150801A1
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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
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L27/00—Modulated-carrier systems
- H04L27/26—Systems using multi-frequency codes
- H04L27/2601—Multicarrier modulation systems
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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
- H04L5/0032—Distributed allocation, i.e. involving a plurality of allocating devices, each making partial allocation
- H04L5/0035—Resource allocation in a cooperative multipoint environment
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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
- H04L5/0051—Allocation of pilot signals, i.e. of signals known to the receiver of dedicated pilots, i.e. pilots destined for a single user or terminal
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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
- H04L5/0091—Signaling for the administration of the divided path
- H04L5/0094—Indication of how sub-channels of the path are allocated
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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
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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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 the field of communications, and in particular, to a method and device for notifying reference signal configuration information. Background technique
- the network device needs to notify the terminal equipment (User Equipment) of the coverage area by using the reference signal book configuration information, so that the UE can perform downlink channel estimation according to the reference signal configuration information, thereby improving system error performance.
- the terminal equipment User Equipment
- the prior art discloses a method for notifying a CRS (Common Reference Signal) configuration information to a UE.
- the network device offsets an implicit mapping of a pilot pattern of a downlink CRS and a cell identifier.
- the pilot pattern is notified to the UE.
- the number of ports of the CRS is implicitly notified to the UE through SIB (System Information Block) signaling.
- the embodiment of the present invention provides a method and a device for notifying reference signal configuration information.
- the technical solution is as follows:
- a method for notifying reference signal configuration information comprising:
- the CSI-RS configuration information includes at least a port number, a pilot pattern, and a pilot period. And subframe offset; And storing a mapping relationship between the CSI-RS configuration information and the CSI-RS configuration information, and transmitting the mapping relationship between the CSI-RS configuration information and the CSI-RS configuration information to the user equipment UE for storage;
- the configuration information is encoded, and the CSI-RS configuration information is encoded and sent to the UE, so that the UE encodes the CSI-RS configuration information according to the received CSI-RS configuration information and the CSI-RS configuration information stored by the UE.
- the mapping relationship with the CSI-RS configuration information determines CSI-RS configuration information.
- an apparatus for notifying reference signal configuration information comprising:
- An encoding module configured to encode the CSI-RS configuration information according to the channel state information-reference signal CSI-RS configuration information, to obtain CSI-RS configuration information coding, where the CSI-RS configuration information includes at least a port number and a pilot Pattern, pilot period and subframe offset;
- a storage module configured to store a mapping relationship between the CSI-RS configuration information code obtained by the coding module and the CSI-RS configuration information
- a first sending module configured to send, to the user equipment UE, a mapping relationship between the CSI-RS configuration information encoded by the storage module and the CSI-RS configuration information
- a locating module configured to determine CSI-RS configuration information to be notified, and search for the CSI to be notified in a mapping relationship between the CSI-RS configuration information code and the CSI-RS configuration information stored by the storage module - encoding the CSI-RS configuration information corresponding to the RS configuration information;
- a second sending module configured to send, to the UE, the CSI-RS configuration information that is searched by the searching module, to enable the UE to encode according to the received CSI-RS configuration information, and the UE is pre-
- the stored mapping relationship between the CSI-RS configuration information encoding and the CSI-RS configuration information determines CSI-RS configuration information.
- the CSI-RS configuration information is notified by coding in CSI-RS configuration information.
- the UE is configured to determine the CSI-RS configuration information according to the CSI-RS configuration information coding, which not only reduces the overhead, but also ensures that the CSI-RSs of more cells do not collide with each other.
- FIG. 1 is a flowchart of a method for notifying reference signal configuration information according to Embodiment 1 of the present invention
- FIG. 2 is a flowchart of a method for notifying reference signal configuration information according to Embodiment 2 of the present invention
- Embodiment 3 is a schematic diagram of a first type of pilot pattern provided by Embodiment 2 of the present invention.
- Embodiment 4 is a schematic diagram of a second type of pilot pattern provided by Embodiment 2 of the present invention.
- FIG. 5 is a schematic diagram of a third type of pilot pattern provided by Embodiment 2 of the present invention.
- FIG. 6 is a schematic diagram of a fourth type of pilot pattern provided by Embodiment 2 of the present invention.
- FIG. 7 is a schematic structural diagram of an apparatus for notifying reference signal configuration information according to Embodiment 3 of the present invention.
- FIG. 8 is a schematic structural diagram of a first coding module according to Embodiment 3 of the present invention.
- FIG. 9 is a schematic structural diagram of a second coding module according to Embodiment 3 of the present invention.
- FIG. 10 is a schematic structural diagram of a third coding module according to Embodiment 3 of the present invention.
- FIG. 11 is a schematic structural diagram of a fourth coding module according to Embodiment 3 of the present invention.
- FIG. 12 is a schematic structural diagram of a fifth coding module according to Embodiment 3 of the present invention.
- FIG. 13 is a schematic structural diagram of a sixth coding module according to Embodiment 3 of the present invention. detailed description
- this embodiment provides a method for notifying reference signal configuration information, and the method is specifically as follows:
- the CSI-RS configuration information is encoded according to the CSI (Channel State Information)-RS (Reference Signal) configuration information, and the CSI-RS configuration information is encoded, and the CSI-RS configuration information includes at least a port. Number, pilot pattern, pilot period, and subframe offset;
- mapping relationship between the CSI-RS configuration information coding and the CSI-RS configuration information is stored, and the mapping relationship between the CSI-RS configuration information coding and the CSI-RS configuration information is sent to the UE for storage.
- 104 Send the CSI-RS configuration information code to the UE, and enable the UE to determine the CSI according to the received CSI-RS configuration information code and the mapping relationship between the CSI-RS configuration information code and the CSI-RS configuration information stored by the UE. RS configuration information.
- the CSI-RS has low overhead, long period, high multiplexing factor, and high port pilot map
- the feature of the low-port pilot pattern is nested. Therefore, the CSI-RS configuration information is notified to the UE in the form of CSI-RS configuration information coding, so that the UE determines the CSI-RS configuration information according to the CSI-RS configuration information coding, not only It can reduce the overhead and also ensure that the CSI-RSs of more cells do not collide with each other.
- This embodiment provides a method for notifying reference signal configuration information. Since the CSI-RS has the characteristics of low overhead, long period, high multiplexing factor, and high port pilot pattern nested low port pilot pattern, the present embodiment For example, the CSI-RS configuration information is encoded, and the CSI-RS configuration information is used to notify the UE of the CSI-RS configuration information, so that the UE determines the CSI-RS configuration information, thereby reducing overhead and ensuring more cells. CSI-RS does not collide with each other.
- the device for notifying the reference signal configuration information is a network device, and the CSI-RS configuration information includes but is not limited to the number of ports, the pilot pattern, the pilot period, and the subframe offset.
- the network device may require the location of the CSI-RS sent by the cell, and the strong interfering cell performs data muting processing to avoid reference. Signal interference.
- the cell needs to notify the CSI-RS pilot position (including the pilot period and the pilot pattern, etc.) to each strong interfering cell.
- the network device also needs to notify the UE of the data mute location of the CSI-RS, so that the UE assumes that there is no data symbol transmission at the location, the receiver does not perform data detection at the location, and the UE estimates the downlink channel of the corresponding cell at the location.
- the CSI-RS configuration information includes a data mute position in addition to the port number, the pilot pattern, the pilot period, and the subframe offset.
- the network device If the network device supports partial data muting on the basis of supporting data mute, the network device also needs to notify the UE of the data mute period and the data mute offset.
- the CSI-RS configuration information includes the number of ports, The pilot pattern, pilot period, subframe offset, and data mute position also include data mute period and data mute offset.
- the method provided in this embodiment is described in detail by taking the network device as a data mute technology and a part of the data mute technology as an example.
- the CSI-RS configuration information includes the number of ports, the pilot pattern, the pilot period, the subframe offset, and the data mute position, and includes a data mute period and a data mute offset. Referring to FIG. 2, the embodiment provides The method flow is as follows:
- the network device associates the number of ports with the pilot pattern to obtain a first coding result.
- the number of CSI-RS ports is two, four, and eight.
- the pilot pattern has different possibilities for different port numbers and different sub-frame configurations, as shown in Table 1:
- the pilot pattern corresponds to a different number of ports, respectively, up to 32 (2 ports), 16 (4 ports), 8 (8 Port) kind of possible.
- the number of ports is associated with the pilot pattern, it can be implemented in any of the following two ways:
- the first way The number of ports and the pilot pattern are jointly encoded with 6 bits.
- the 6-bit signaling can indicate 64 states, and any of the 56 states can be used, and they are combined with the 56 port numbers and pilot pattern combinations to establish a mapping table. Therefore, the UE can know the number of ports and the pilot pattern of the CSI-RS by receiving the 6-bit signaling and looking up the mapping table.
- each 8-port pilot pattern can be nested with two 4-port pilot patterns
- each The 4-port pilot pattern is nested with two 2-port pilot patterns. If the 8-port pilot pattern is divided into two parts, each part is a 4-port pilot pattern; if the 4-port pilot pattern is divided into two front and rear pilot patterns, In part, each part is a 2-port pilot pattern. Based on this nesting feature, the mapping between the number of ports and the pilot pattern can be determined by the following two steps:
- the first step the lowest bit 3 bits are associated with the 8 port pilot patterns.
- the correspondence between the lowest bit 3 bits and the 8-port pilot pattern is not specifically limited.
- the correspondence shown in Table 2 is an example:
- the third 8-port pilot pattern 010 is the third 8-port pilot pattern 010
- the fourth 8-port pilot pattern 011 is the fourth 8-port pilot pattern 011
- the fifth 8-port pilot pattern 100 is the fifth 8-port pilot pattern 100.
- the seventh 8-port pilot pattern 110 is the seventh 8-port pilot pattern 110
- the eighth 8-port pilot pattern 111 When the number of ports is 2 or 4, the 3 bits of the lowest bit represent an 8-port pilot pattern capable of nesting the indicated pilot pattern.
- the number of the 8-port pilot pattern corresponding to the mapping table is shown in FIGS. 3 to 6.
- Step 2 When the number of ports is 8, the highest 3 bits are 110;
- the 2 bits of the highest bit are 10, and the 3rd bit indicates the position of the 4-port pilot pattern in the nested 8-port pilot pattern, with 0 indicating the first half and 1 indicating the second half. ;
- the 1st bit of the highest bit is 0;
- the 2nd bit indicates the position of the 2-port pilot pattern in the nested 4-port pilot pattern, 0 means the first half, 1 means the second half ;
- the X of the lowest 3 bits in Table 3 represents the correspondence established with the 8 pilot patterns of the 8 ports.
- the result of the joint coding of the port number and the pilot pattern is 100101, because the coding result is The highest bit of the three bits is 100.
- the number of ports corresponding to the coding result is 4 ports, and the 4 ports are the first half of the 8-port pattern.
- the 3 bits of the lowest bit in the coding result are 101, it can be seen from the above Table 2 that it is the fifth 8-port pilot pattern.
- the second way encode the number of ports and the pilot pattern separately.
- the number of ports is encrypted and encoded into a CRC (Cyclic Redundancy Check) of the Xth SIB, and the pilot pattern is indicated by 5-bit signaling.
- CRC Cyclic Redundancy Check
- the Xth system information block is a system information block for configuring CSI-RS information. Based on the nesting characteristics of the CSI-RS, the mapping between the 5-bit signaling and the pilot pattern can be obtained by the following two steps:
- Step 1 The lowest 3 bits are in a one-to-one correspondence with the 8 pilot patterns of the 8 ports. When the number of ports is 2 or 4, the three bits indicate that 8 of the indicated pilot patterns can be nested. Port pilot pattern.
- Step 2 When the number of ports is 8, the 2 bits of the highest bit are any values of 0 and 1.
- the 1st bit of the highest bit is any value of 0 and 1, and the 2nd bit indicates the 4-port pilot pattern.
- 0 indicates the first half and 1 indicates the second half;
- the 1st bit indicates the position of the 2-port pilot pattern in the nested 4-port pilot pattern, with 0 being the first half and 1 being the second half.
- the pilot pattern can be divided into different pilot pattern groups according to the first half and the second half. Taking a 2-port pilot pattern as an example, it can be divided into two pilot pattern groups according to the first half and the second half of the 4-port pilot pattern.
- the first type that associates the number of ports with the pilot pattern.
- the second bit in the mode and the first bit in the second mode may indicate the associated pilot pattern set.
- the two pilot pattern groups are subdivided into four pilot pattern groups according to the first half and the second half of the 8-port pilot pattern, and the second and third bits and the first in the first mode.
- the first and second bits of the two modes may indicate the associated pilot pattern set. Taking a 4-port pilot pattern as an example, it can be divided into two pilot pattern groups according to the first half and the second half of the 8-port pilot pattern. In this case, the third bit in the first mode and the second mode The second bit of the bit can indicate the associated set of pilot patterns.
- the first half of the 8-port pilot pattern referred to in this embodiment refers to dividing the 8-port pilot pattern into two parts according to the 4-port pilot pattern nested by it, wherein the front part is It may be the first half of the overall 8-port pilot pattern, or the first half of each of the 8-port pilot patterns.
- the pilot pattern labeled 0 in FIG. 3 has four lines from top to bottom.
- the first two rows may be referred to as the first half, or the first row and the second row of the first two rows may be collectively referred to as the first half.
- This embodiment does not specifically limit this, and the 4-port pilot pattern is not limited.
- the meaning of the first half of the same meaning as the first half of the 8-port pilot pattern is also not specifically limited in this embodiment.
- the number of ports is associated with the pilot pattern, and the obtained coding result is collectively referred to as the first coding result.
- the network device obtains the first After the coding result, it is also required to establish a correspondence between the first coding result and the number of ports and the pilot pattern.
- the pilot period of the CSI-RS is a multiple of 5 milliseconds. Assuming that the CSI-RS period is 5N milliseconds, and N is a positive integer, the value of N is specified by the R10 specification, and each millisecond corresponds to one subframe.
- the subframe offset refers to the subframe offset of the subframe carrying the CSI-RS relative to the reference subframe (i.e., the first subframe of the 5N subframes) under a certain CSI-RS period.
- the 0th and 4th subframes of every 5 subframes may need to carry information such as a synchronization channel, a broadcast channel, a paging channel, etc.
- these subframes cannot carry CSI-RS, and therefore correspond to 5N.
- the CSI-RS period of ms has a maximum of 3N possibilities for subframe offset.
- the coding of the pilot period and the subframe offset of the CSI-RS may be performed in any of the following two manners: The first manner: encoding the pilot period of the CSI-RS and the subframe offset separately.
- the second method jointly coding the pilot period of the CSI-RS and the subframe offset.
- N is ⁇ 1, 2, 3, 4, 5, 6, 7, 8 ⁇
- 3 bits are needed to indicate the period of the CSI-RS, corresponding to the pilot period of each CSI-RS.
- the probability of sub-frame offset is ⁇ 3, 6, 9, 12, 15, 18, 21, 24 ⁇ , respectively.
- the 7 bits can have 128 states, and any one of 108 states and 108 pilot periods combined with the subframe offset can be selected to establish a one-to-one mapping table. After receiving the 7 bits, the UE can check the table. The corresponding pilot period and subframe offset information are obtained.
- the possibility of the value of the subframe offset may be limited.
- the first 5 subframes of every 5N subframes are required to carry the CSI-RS.
- the pilot period of any CSI-RS there are at most three possibilities for the subframe offset, S I , 2, 3 ⁇ .
- the pilot period and subframe offset of the CSI-RS can still be encoded in the above two ways.
- 3 + 2 5 bits are required; when encoding in the second way, 5 bits are required.
- N may have multiple possibilities.
- the pilot period and the subframe offset of the CSI-RS may be encoded by the above two methods. This embodiment does not limit the specific value of N.
- the pilot period and the subframe offset are associated and encoded, and the obtained coding results are collectively referred to as the second coding result.
- the network device After obtaining the second coding result, it is also required to establish a correspondence between the second coding result and the pilot period and the subframe offset.
- the network device uses a bitmap (bitmap) to indicate the location of the muted RE (Resource Element) in the OFDM (Orthogonal Frequency Division Multiplexing) symbol of the serving cell CSI-RS. .
- part of the location information for performing data muting may be implicitly carried by the location information of the serving cell CSI-RS.
- the serving cell may only perform data muting on the subframe carrying the CSI-RS and the 0FDM symbol, so the subframe offset of the data muting is the same as the subframe offset of the CSI-RS, and no separate notification is needed;
- the muted 0FDM symbol position is the same as the 0FDM symbol in which the CSI-RS pilot pattern is located, and does not require separate notification.
- the network device uses 12 bits to indicate the position of the silenced RE in the OFDM symbol where the serving cell CSI-RS is located by using a bitmap.
- the 12 bits of the RE indicating the muting correspond to the same OFDM symbol.
- the 12 2-port pilot patterns on the top as shown in the ninth and tenth OFDM symbols in FIG. 3, wherein each pilot pattern includes a pair of REs, and if a certain bit is 1, it indicates that the corresponding RE needs Mute, if a bit is 0, the table The corresponding RE does not need to be muted.
- the network device may use K bits to indicate the location of the muted RE in the OFDM symbol in which the serving cell CSI-RS is located, in a bitmap manner, where K 12 .
- K is determined by factors such as the maximum number of pilot patterns on the OFDM symbol carrying the serving cell CSI-RS, the range of silence, and the pilot pattern of silence.
- the OFDM symbol is included.
- K can be taken as 4, at this time, 4 bits of the RE indicating silence are respectively corresponding to 4 2-port pilot patterns on the 5th and 6th OFDM symbols, if some The bit is 1, indicating that the corresponding RE needs to be muted. If a bit is 0, it means that the corresponding RE does not need to be muted.
- the network side specifies the range of the mute set or the mute
- the data mute only occurs in the range of the mute set or the mute to which the serving cell CSI-RS belongs, and the range of the mute set or the mute can be notified by other means
- the implementation of the present invention This example does not specifically limit this. Taking FIG.
- the serving cell CSI-RS is on the 9th and 10th OFDM symbols, and the range of muting is limited to the RE numbered 2, and these REs include 4 2-port pilot patterns
- K can be taken as 4, at this time, the 4 bits of the RE indicating the muting correspond to the 4 2-port pilot patterns included in the RE labeled 2 on the 9th and 10th OFDM symbols, respectively, if a certain bit A value of 1, indicates that the corresponding RE needs to be muted. If a certain bit is 0, it means that the corresponding RE does not need to be muted.
- K can be taken as 6, and at this time, the silent RE is indicated.
- the 6 bits correspond to the 6 4-port pilot patterns on the 9th and 10th OFDM symbols, respectively, where each pilot pattern contains two pairs of REs. If a bit is 1, it indicates that the corresponding RE needs to be muted. If a bit is 0, it means that the corresponding RE does not need to be muted.
- K there are many possibilities for the value of K.
- the position of the muted RE in the 0FDM symbol of the serving cell CSI-RS can be indicated by the bitmap method. This embodiment does not limit the specific value of K.
- the obtained coding result is collectively referred to as the third coding result.
- the network device needs to establish after obtaining the third coding result. Correspondence between the third encoding result and the data mute position.
- part of the data muting means that the data REs that collide with the CSI-RS are not muted.
- the CSI-RS is sent every 5 ms, and the data muting occurs every 15 ms.
- the network device needs to The UE notifies the data muting period and the data muting subframe offset. Since the data can only be muted on the CSI-RS carrying subframe and the OFDM symbol, the data silence period is a positive integer multiple of the CSI-RS period, assuming that the data silence period is 5NMms. During 5NMms, the network device will send M times CSI-RS, and data mute may occur in any of the CSI-RS subframes. Up, so you also need to inform the offset of the data mute, that is, the data mute offset.
- the encoding of the data mute period and the data mute offset can be implemented in any of the following two ways:
- the second way The data mute period is combined with the data mute offset.
- the probability of data mute offset is ⁇ 1,2,3,4,5 ⁇ corresponding to each data silence period, respectively.
- the four bits can have 16 states, and any one of the 15 states and 15 data mute periods and the data mute offset can be selected to establish a one-to-one mapping table. After receiving the 4 bits, the UE can check the table. Obtain the corresponding data mute period and data mute offset information.
- the possibility of data mute offset value may be limited.
- the network device sends M CSI-RS times, and the data mute can only occur on the first CSI-RS subframe.
- the data mute offset value is only 1 kind of possibility, so there is no need to notify the mute offset.
- the assumed value is ⁇ 1, 2, 3, 4, 5 ⁇ , which requires 3 bits.
- the value of M may have multiple possibilities.
- the data mute period and the data mute offset of the CSI-RS may be encoded by the above two methods. This embodiment does not limit the specific values of M and N.
- the obtained coding result is collectively referred to as the fourth coding result
- the network device After obtaining the fourth coding result, it is also required to establish a correspondence between the fourth coding result and the data mute period and the data mute offset.
- the network device After the network device obtains the first, second, third, and fourth encoding results by using the foregoing steps 201 to 204, in order to notify the CSI-RS configuration information each time, the network device is not repeatedly required to be encoded. It is also required to store a correspondence between the first coding result and the number of ports and the pilot pattern, a correspondence between the second coding result and the pilot period and the subframe offset, a correspondence between the third coding result and the data silence position, and a fourth coding. The result is related to the data mute period and the data mute offset, so that after the network device determines the CSI-RS configuration information to be notified, the CSI-RS configuration information to be notified is only found in the stored mapping relationship.
- the CSI-RS configuration information is encoded, and the CSI-RS configuration information is encoded and transmitted to the UE.
- the CSI-RS configuration information is encoded to the UE by using a downlink channel, where the CSI-RS configuration information is encoded into any one of the first coding result, the second coding result, and the third coding result. Any one of the encoding result and the fourth encoding result.
- the network device stores the CSI-RS configuration information coding and CSI in itself. After the mapping relationship of the RS configuration information, the UE also needs to send the information to the UE for storage, so that the UE maps the CSI-RS configuration information and the CSI-RS configuration information encoded by the UE according to the received CSI-RS configuration information. Determine the CSI-RS configuration information.
- the manner of sending the CSI-RS configuration information encoding includes but is not limited to the following:
- the first type adding a bit for carrying the CSI-RS configuration information coding in the system information block of the broadcast channel, for example, adding a corresponding bit in the second system information block (SIB2) of the broadcast channel for carrying the CSI -RS information.
- SIB2 second system information block
- the second type uses the extra bits in the MIB (Master Information Block) to carry the CSI-RS configuration information coding in the broadcast channel, for example, using the 10 redundant bits in the primary information block to carry the CSI in the broadcast channel. RS information.
- MIB Master Information Block
- a new system information block for carrying CSI-RS configuration information coding is defined in the broadcast channel, for example, an Xth system information block (SIBx) is defined in the broadcast channel for carrying CSI-RS information, where the port
- SIBx Xth system information block
- the number information can be encrypted to the CRC of the SIBx, and this embodiment does not limit the specific value of X.
- the fourth type The CSI-RS configuration information is carried by using a unicast channel, for example, the CSI-RS configuration information is carried by using the downlink control channel.
- the UE can determine the network device according to the mapping between the CSI-RS configuration information encoding and the CSI-RS configuration information coding and the CSI-RS configuration information stored by the UE.
- the specific CSI-RS configuration information that is transmitted can determine the location of the CSI-RS according to the CSI-RS configuration information, thereby enabling operations such as downlink channel estimation.
- steps 201 to 204 only perform coding coding on the CSI-RS configuration information by using all the information in the CSI-RS configuration information. In actual applications, all the CSI-RS configuration information may also be adopted.
- IJ The way in which information is jointly encoded, IJ:
- the CSI-RS configuration information includes the number of ports, the pilot pattern, the pilot period, and the subframe offset
- the number of ports, the pilot pattern, the pilot period, and the subframe offset in the CSI-RS configuration information may be jointly encoded.
- the mapping relationship between the subframe offset and the CSI-RS configuration information sent to the UE is encoded as one of the first joint coding results.
- the CSI-RS configuration information includes the number of ports in the CSI-RS configuration information, including the port number, the pilot pattern, the pilot period, and the subframe offset, and the data mute position.
- the frequency pattern, the pilot period, the subframe offset, and the data muting position are jointly encoded to obtain a second joint coding result, and the number of ports, the pilot pattern, and the pilot period in the second joint coding result and the CSI-RS configuration information are established.
- a mapping relationship between the subframe offset and the data muting position, and the CSI-RS configuration information sent to the UE is encoded as one of the second joint coding results.
- the CSI-RS configuration information includes the number of ports, the pilot pattern, the pilot period, the subframe offset, and the data mute position, and includes the data mute period and the data mute offset.
- the number of ports in the RS configuration information, the pilot pattern, the pilot period, the subframe offset, the data muting position, the data muting period, and the data muting offset are jointly encoded to obtain a third joint coding result, and a third joint coding is established.
- the result is a mapping relationship between the number of ports, the pilot pattern, the pilot period, the subframe offset, the data muting position, the data muting period, and the data muting offset in the CSI-RS configuration information, and the CSI-RS configuration information sent to the UE.
- the code is one of the third joint coding results.
- the method provided in this embodiment has the characteristics of small overhead, long period, high multiplexing factor, and high port pilot pattern nested low port pilot pattern, and therefore, encoded by CSI-RS configuration information.
- Notifying the CSI-RS configuration information to the UE so that the UE determines the CSI-RS configuration information according to the CSI-RS configuration information coding, which not only reduces the overhead, but also ensures that the CSI-RSs of more cells do not collide with each other;
- Supporting the mute technology by notifying the UE of information such as the data mute position, the data mute period, and the data mute offset, the data symbols transmitted by the CSI-RS and the strong interfering cell can be prevented from colliding with each other.
- Embodiment 3 Embodiment 3
- the embodiment provides an apparatus for notifying reference signal configuration information, where the apparatus includes: an encoding module 701, configured to encode CSI-RS configuration information according to channel state information-reference signal CSI-RS configuration information, Obtaining a CSI-RS configuration information code, where the CSI-RS configuration information includes at least a port number, a pilot pattern, a pilot period, and a subframe offset;
- the storage module 702 is configured to store a mapping relationship between the CSI-RS configuration information code obtained by the encoding module 701 and the CSI-RS configuration information.
- the first sending module 703 is configured to send the mapping relationship between the CSI-RS configuration information code and the CSI-RS configuration information stored in the storage module 702 to the user equipment UE for storage;
- the searching module 704 is configured to determine the CSI-RS configuration information to be notified, and search for the CSI-RS configuration information to be notified in the mapping relationship between the CSI-RS configuration information code and the CSI-RS configuration information stored in the storage module 702. CSI-RS configuration information encoding;
- the second sending module 705 is configured to: send the CSI-RS configuration information that is searched by the searching module 704 to the UE, and enable the UE to encode and CSI-RS configuration information according to the received CSI-RS configuration information and the CSI-RS configuration information.
- the mapping relationship of the RS configuration information determines the CSI-RS configuration information.
- the coding module 701 includes:
- the first coding unit 7011a is configured to jointly encode the number of ports, the pilot pattern, the pilot period, and the subframe offset in the CSI-RS configuration information, to obtain a first joint coding result;
- the first establishing unit 7011b is configured to establish a mapping relationship between the first joint coding result obtained by the first coding unit 7011a and the number of ports, the pilot pattern, the pilot period, and the subframe offset in the CSI-RS configuration information;
- the CSI-RS configuration information sent by the second sending module 705 is encoded as one of the first joint coding results.
- the coding module 701 includes:
- the second coding unit 7012a is configured to associate the number of ports in the CSI-RS configuration information with the pilot pattern to obtain a first coding result.
- a second establishing unit 7012b configured to establish a mapping relationship between the first encoding result obtained by the second encoding unit 7012a and the number of ports and the pilot pattern in the CSI-RS configuration information;
- the third coding unit 7013a is configured to associate the pilot period in the CSI-RS configuration information with the subframe offset to obtain a second coding result.
- the third establishing unit 7013b is configured to establish a mapping relationship between the second encoding result obtained by the third encoding unit 7013a and the pilot period and the subframe offset in the CSI-RS configuration information;
- the CSI-RS configuration information sent by the second sending module 705 is encoded as any one of the first encoding result and the second encoding result.
- the CSI-RS configuration information further includes a data mute position
- the encoding module 701 includes:
- the fourth coding unit 7014a is configured to jointly encode the number of ports, the pilot pattern, the pilot period, the subframe offset, and the data muting position in the CSI-RS configuration information, to obtain a second joint coding result;
- the fourth establishing unit 7014b is configured to establish a mapping between the second joint coding result obtained by the fourth coding unit 7014a and the number of ports, the pilot pattern, the pilot period, the subframe offset, and the data mute position in the CSI-RS configuration information.
- the CSI-RS configuration information sent by the second sending module 705 is encoded as one of the second joint encoding results.
- the coding module 701 includes:
- the second coding unit 7012a is configured to associate the number of ports in the CSI-RS configuration information with the pilot pattern to obtain a first coding result.
- a second establishing unit 7012b configured to establish a mapping relationship between a first encoding result obtained by the second encoding unit 7012a and a port number and a pilot pattern in the CSI-RS configuration information;
- the third coding unit 7013a is configured to associate the pilot period in the CSI-RS configuration information with the subframe offset to obtain a second coding result.
- the third establishing unit 7013b is configured to establish a mapping relationship between the second encoding result obtained by the third encoding unit 7013a and the pilot period and the subframe offset in the CSI-RS configuration information;
- a fifth coding unit 7015a configured to encode a data mute position in the CSI-RS configuration information to obtain a third coding result
- a fifth establishing unit 7015b configured to establish a mapping relationship between the third encoding result obtained by the fifth encoding unit 7015a and the data muting position in the CSI-RS configuration information
- the CSI-RS configuration information sent by the second sending module 705 is encoded into any of the first encoding result, any one of the second encoding results, and any one of the third encoding results.
- the CSI-RS configuration information further includes a data mute position, a data mute period, and a data mute offset;
- the encoding module 701 includes:
- the sixth coding unit 7016a is configured to jointly encode the number of ports, the pilot pattern, the pilot period, the subframe offset, the data muting position, the data muting period, and the data muting offset in the CSI-RS configuration information to obtain a third Joint coding result;
- the sixth establishing unit 7016b is configured to establish a third joint coding result obtained by the sixth coding unit 7016a and a port number, a pilot pattern, a pilot period, a subframe offset, a data mute position, and a data in the CSI-RS configuration information.
- the CSI-RS configuration information sent by the second sending module 705 is encoded as one of the third joint coding results.
- the coding module 701 includes:
- the second coding unit 7012a is configured to associate the number of ports in the CSI-RS configuration information with the pilot pattern to obtain a first coding result.
- a second establishing unit 7012b configured to establish a mapping relationship between the first encoding result obtained by the second encoding unit 7012a and the number of ports and the pilot pattern in the CSI-RS configuration information;
- the third coding unit 7013a is configured to associate the pilot period in the CSI-RS configuration information with the subframe offset to obtain a second coding result.
- a third establishing unit 7013b configured to establish a mapping relationship between a second encoding result obtained by the third encoding unit 7013a and a pilot period and a subframe offset in the CSI-RS configuration information
- a fifth encoding unit 7015a configured to encode a data mute position in the CSI-RS configuration information, to obtain a third encoding result
- a fifth establishing unit 7015b configured to establish a mapping relationship between the third encoding result obtained by the fifth encoding unit 7015a and the data muting position in the CSI-RS configuration information
- a seventh coding unit 7017a configured to associate a data mute period in the CSI-RS configuration information with a data mute offset to obtain a fourth coding result
- a seventh establishing unit 7017b configured to establish a mapping relationship between the fourth encoding result obtained by the seventh encoding unit 7017a and the data muting period and the data muting offset in the CSI-RS configuration information;
- the CSI-RS configuration information sent by the second sending module 705 is encoded into any one of the first encoding result, any one of the second encoding results, any one of the third encoding results, and the fourth encoding. Any of the results of the encoding.
- the second coding unit 7012a is specifically configured to determine a correspondence between the number of ports in the CSI-RS configuration information and the pilot pattern, and jointly encode the number of ports in the CSI-RS configuration information and the pilot pattern according to the correspondence relationship. Or separately coded;
- the third coding unit 7013a is specifically configured to determine a correspondence between a pilot period and a subframe offset in the CSI-RS configuration information, and combine the pilot period and the subframe offset in the CSI-RS configuration information according to the correspondence relationship. Encode or encode separately.
- the seventh coding unit 7017a is specifically configured to determine a correspondence between a data silence period and a data silence offset in the CSI-RS configuration information, and combine the data silence period and the data silence offset in the CSI-RS configuration information according to the correspondence relationship. Encode or encode separately.
- the fifth coding unit 7015a is specifically configured to perform bitmap coding on the data mute position according to the position of the pilot pattern in the CSI-RS configuration information.
- the second sending module 705 is specifically configured to add a bit for carrying the CSI-RS configuration information encoding in the system information block of the broadcast channel; or use the extra bit in the primary information block to carry the CSI-RS configuration in the broadcast channel.
- Information coding or, defining a new system information block for carrying CSI-RS configuration information coding in a broadcast channel; or, using a unicast channel to carry CSI-RS configuration information coding.
- the device for notifying reference signal configuration information has the characteristics of small overhead, long period, high multiplexing factor, and high port pilot pattern nested low port pilot pattern.
- the CSI-RS configuration information is notified to the UE in the form of coding the CSI-RS configuration information, so that the UE determines the CSI-RS configuration information according to the CSI-RS configuration information coding, which not only reduces the overhead, but also ensures the CSI of more cells.
- the network device supports mute technology, information such as mute position of data, data mute period, and data mute offset Notifying the UE, it is possible to prevent the data symbols transmitted by the CSI-RS and the strong interfering cell from colliding with each other.
- the device for notifying the reference signal configuration information provided by the foregoing embodiment notifies the reference signal configuration information
- only the division of each functional module is used for example.
- the foregoing function may be allocated according to requirements. Different functional modules are completed, that is, the internal structure of the device is divided into different functional modules to complete all or part of the functions described above.
- the device for notifying the reference signal configuration information provided by the foregoing embodiment is the same as the method embodiment for the reference signal configuration information, and the specific implementation process is described in detail in the method embodiment, and details are not described herein again.
- All or part of the steps in the embodiment of the present invention may be implemented by using hardware, or may be instructed by a program to execute related hardware, and the program may be stored in a readable storage medium such as an optical disk or a hard disk.
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Priority Applications (10)
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EP17190746.2A EP3379759B1 (en) | 2010-08-02 | 2011-05-30 | Receiving reference signal configuration information |
EP19202610.2A EP3687097A1 (en) | 2010-08-02 | 2011-05-30 | Receiving reference signal configuration information |
KR1020137004447A KR101431400B1 (ko) | 2010-08-02 | 2011-05-30 | 기준 신호 구성 정보를 통지하기 위한 방법 및 디바이스 |
EP11789180.4A EP2603031B1 (en) | 2010-08-02 | 2011-05-30 | Method and device for notifying configuration information for reference signals |
US13/757,425 US9439172B2 (en) | 2010-08-02 | 2013-02-01 | Method and device for notifying reference signal configuration information |
US15/243,985 US9608787B2 (en) | 2010-08-02 | 2016-08-23 | Method and device for notifying reference signal configuration information |
US15/447,071 US10193675B2 (en) | 2010-08-02 | 2017-03-01 | Method and device for notifying reference signal configuration information |
US16/248,801 US10608798B2 (en) | 2010-08-02 | 2019-01-16 | Method and device for notifying reference signal configuration information |
US16/828,942 US11177918B2 (en) | 2010-08-02 | 2020-03-24 | Method and device for notifying reference signal configuration information |
US17/506,642 US11902197B2 (en) | 2010-08-02 | 2021-10-20 | Method and device for notifying reference signal configuration information |
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