JP2015216687A - Signalling of channel information - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an apparatus or the like for aperiodic channel quality indication used for carrier aggregation.SOLUTION: An apparatus and a method comprises the steps of: receiving a request for requesting to provide aperiodic channel information with respect to a selected downlink component carrier of a plurality of component carriers; determining the selected downlink component carrier; establishing channel information with respect to the selected downlink component carrier; and sending the channel information with respect to the selected downlink component carrier.

Description

  The present invention relates to an apparatus, method, and computer program product for aperiodic channel quality indication used in carrier aggregation.

The meanings of the acronyms used in this specification are as follows.
3GPP Third Generation Partnership Project CA Carrier Aggregation CC Component Carrier CIF Carrier Indicator Field CQI Channel Quality Indicator CRC Cyclic Redundancy Check
CSI channel state information) (eg, including CQI, PMI, and RI)
DCI downlink control information DL downlink DRX / DTX discontinuous transmission / detection eNode-B LTE base station (also called eNB)
FDPS Frequency Domain (Domain) Packet Scheduling LTE Long Term Evolution LTE-A LTE Advanced (LTE-Advanced)
MAC medium access control MCS modulation and coding scheme MIMO multiple input multiple output NDI new data indicator PDCCH physical downlink control channel PMI precoding matrix indicator (Precoding Matrix Indicator)
PRB physical resource block PUCCH physical uplink control channel PUSCH physical uplink shared channel RI rank indicator RRC radio resource control SU-MIMO single user multiple input multiple output UE user equipment UL uplink

Some embodiments of the invention relate to an LTE advanced system that is very likely to be part of, for example, 3GPP LTE Rel-10. More specifically, the focus is on channel state information (CSI) feedback signaling when using carrier aggregation. However, it should be noted that the embodiments are equally applicable to other systems and releases.
LTE Advanced is an evolution of the LTE Rel-8 system to meet ITU-R requirements for IMT Advanced (IMT-Advanced). 3GPP approved a new inspection item (study item) of LTE Advanced at RAN # 39 (March 2008). Carrier aggregation is one key technology component required to meet the new system bandwidth and peak data rate requirements set.
As described above, embodiments of the present invention relate to component carrier aggregation (or channel bonding), where the total system bandwidth consists of a set of component carriers as shown in FIG. . FIG. 3 shows an example of carrier aggregation when discontinuous bands are used. The total system bandwidth includes carrier frequencies f ₁ , f ₂ ,. . . , F _N , a set of component carriers BW ₁ , BW ₂ ,. . . , BW _N are included.

LTE Advanced standardization (currently in the test item phase) in 3GPP is premised on carrier aggregation, with a maximum of 100 MHz bandwidth by integrating up to 5 component carriers of 20 MHz each. Form. Different transport blocks using different modulation and coding schemes (MCS) can be sent on different component carriers even though they are sent to the same user. In order to facilitate such a scheme with efficient frequency domain link adaptation scheduling, the UE must provide frequency selective channel state information (CSI) feedback. The CSI includes a channel quality indicator (CQI), a precoding matrix indicator (PMI), a rank indicator (RI), and / or a channel frequency response or impulse response, and / or a channel covariance matrix. be able to. In addition, the CSI report may include an indication of the component carrier or subband that the report refers to.
To benefit from frequency dependent packet scheduling (FDPS), it is necessary to obtain accurate information about the frequency domain behavior of the propagation channel. To enable FDPS, several frequency selective CSI reporting modes have been added to the LTE Rel-8 specification. The size of the CSI report depends on the reporting mode, system bandwidth, and rank. The maximum size of the CSI report in LTE Rel-8 is 64 bits excluding CRC bits (mode 3-1, 20 MHz bandwidth, rank> 1).

  This increases the report when multiple component carriers are used. Therefore, the report size should be small.

  The object of the present invention is therefore to overcome the above-mentioned problems of the prior art.

According to some embodiments of the present invention, a request for providing aperiodic channel information for a selected downlink component carrier of a plurality of component carriers is received, and the selected downlink component carrier is An apparatus and method are provided in which channel information is determined, channel information for a selected downlink component carrier is determined, and channel information for a selected downlink component carrier is transmitted.
In accordance with some embodiments of the present invention, an apparatus wherein a request is generated to provide aperiodic channel information for a selected downlink component carrier of a plurality of component carriers and the request is transmitted. And methods are provided.
The above and other objects, features, details and advantages will become more fully apparent from the following detailed description of embodiments of the invention that is to be understood in conjunction with the accompanying drawings.

FIG. 2 shows a user equipment (UE) and eNode-B structure according to some embodiments of the invention. FIG. 3 illustrates a process performed by a user equipment (UE) according to some embodiments of the invention. FIG. 4 illustrates a process performed by an eNode-B according to some embodiments of the invention. It is a figure which shows an example of a carrier aggregation.

In the following, an embodiment of the present invention will be described. However, it should be understood that the description is given solely by way of example and that the described embodiments should in no way limit the invention to that embodiment.
As mentioned in the introductory part of this application, the size of the channel state information (CSI) or channel quality indicator (CQI) report should be small in the context of carrier aggregation where multiple component carriers (CC) are used. Should.
In LTE Rel-8 and Rel-9, the eNode-B is placed in any subframe on the PUSCH (except when the UE is configured to perform DRX / DTX) and aperiodic CSI It was specified in 3GPP RAN WG # 1 that the UE can be forced to send a report. That is, in contrast to periodic CSI reports, aperiodic CSI reports are sent by the UE when the UE is prompted to send it.
Aperiodic CSI requests are triggered with a specific bit in the uplink grant (using DCI format 0 as defined in 36.212). Furthermore, it is possible to request aperiodic CSI transmission without any UL data transmission at the same time, i.e. only aperiodic CSI. Each UE is always semi-statically configured via RRC signaling to use one aperiodic CSI reporting mode (the default depending on the transmission mode before the explicit configuration is sent). Mode is assumed).
In addition, when using carrier aggregation, sophisticated CSI is required. LTE Advanced (Rel-10) supports up to 5 DL CCs. Thus, simply extending Rel-8 reporting for multiple CCs results in a very large report (eg, 5 × 64 bits = 320 bits). This is not desirable from an uplink signaling perspective. First, such high overhead significantly limits uplink capacity. Second, in many cases it is not possible to guarantee sufficient UL coverage for such large payloads. Therefore, it is clear that some compression method needs to be considered in order to reduce the UL signaling burden.

Therefore, to efficiently use the combined spectrum, it is necessary to rework aperiodic CSI reporting to support multiple component carriers (CC). Embodiments of the present invention report with an emphasis on aspects related to DL signaling.
In accordance with embodiments of the present invention, detailed aperiodic channel information (eg, CSI) reports for a particular DL CC (and potentially some coarse broadband CSI for other CCs) An approach that can be requested accordingly is adopted. Embodiments describe the DL control signaling mechanism in terms of how this is achieved.
In the following, some embodiments will be described with reference to FIG. In particular, FIG. 1 illustrates the structure of network elements used in some of the embodiments described below.

Reference numeral 11 indicates a user equipment (UE) as an example of an apparatus that performs the process according to the embodiment. In particular, the UE receives a request (eg, a non-periodic CQI or CSI trigger described below) to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers. The receiver (reception means) 111 is configured as described above. The UE further comprises a processor (processing means) 112 configured to determine a selected downlink component carrier and to determine channel information for the selected downlink component carrier. That is, the processor determines a component carrier to be monitored or evaluated based on, for example, information described below. The processor then monitors the channel to detect component carrier channel quality and the like. In addition, the UE also comprises a transmitter (transmission means) 113 configured to transmit channel information (eg aperiodic CSI report or feedback).
The transmitter 111, the processor 112, and / or the transmitter 113, for example, the processor 112 receives a corresponding message, request, etc. from the UE's transmission unit, etc. and / or sends it to the UE's transmission unit, etc. Note that they can be provided as a single unit. Further, the processor 112 can be part of the central processor of the UE and / or can be configured to perform additional functions.

  Reference numeral 12 indicates an eNode-B as an example of a network control element or device that sends a request to provide the aperiodic channel information described above. eNode-B 12 generates a request (eg, aperiodic CQI or CSI trigger described below) to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers. A processor (processing means) 122 configured to Furthermore, the transmitter (transmission means) 121 is configured to transmit the request. Furthermore, the eNode-B 12 comprises a receiver (receiving means) 123 configured to receive the aperiodic channel information transmitted in response to a request to provide aperiodic channel information. Can do.

  Accordingly, the eNode-B transmitter 121 sends a request or trigger (indicated by the upper arrow in FIG. 1) and the processor 112 determines the channel condition and / or channel quality on the selected component carrier. Upon detection, the transmitter 113 of the UE 12 transmits a corresponding report (indicated by the lower arrow in FIG. 1) to the receiver 123 of the eNode-B.

As in the case of the UE 11, the transmitter 121, the processor 122, and / or the receiver 123, for example, the processor 122 receives a corresponding message, request, etc. from the eNode-B transmission unit, etc. and / or It should be noted that it can be provided as one unit, such as sent to an eNode-B transmission unit or the like. Further, the processor 122 can be part of the central processor of the eNode-B and / or can be configured to perform additional functions.
2A and 2B illustrate a method according to an embodiment of the invention.
FIG. 2A shows a process performed by a device such as a user equipment. In step S1, a request (eg, an aperiodic CQI or CSI trigger described below) is received requesting to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers. . In step S2, the selected downlink component carrier is determined. In step S3, channel information for the selected downlink component carrier is determined, and in step S4, channel information for the selected downlink component carrier is transmitted (eg, to a network control element such as eNode-B).
FIG. 2B shows a process performed by a network control element such as eNode-B. In step S11, a request is generated to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers, and the request is transmitted in step S12.

Further, the method can include step S13, in which aperiodic channel information transmitted in response to a request to provide aperiodic channel information is received.
Therefore, according to an embodiment of the present invention, signaling for aperiodic CSI feedback when using carrier aggregation is achieved.
Thus, according to embodiments of the present invention, DL signaling mechanisms and rules are defined that are required for aperiodic CSI report triggering when using carrier aggregation. For some embodiments, several alternative / supplementary options are listed below. The nominator common to all alternatives is to provide a way for them to indicate which DL CC to derive detailed frequency selective CSI reports for. In addition, wideband reports for other DL CCs in the DL CC monitoring set can be reported simultaneously.

The selected downlink component carrier described above can be the primary component carrier in the CC set, or can be any selected component carrier in the set. That is, for example, any _{one of the} component carriers BW _{1 to} BW _N shown in FIG. 3 is determined in advance by various methods described below and indicated to the UE as a selected downlink component carrier. Can do.
Note that the channel information described above may include CSI or CQI, as mentioned above. However, embodiments are not limited to specific definitions of CSI and CQI.

According to the embodiments described below, an aperiodic CSI trigger (as an example of a request to provide aperiodic channel information) is transmitted within an uplink (UL) grant. Please keep in mind. However, embodiments are not limited to this, and the request (or trigger) can be transmitted in other suitable ways.
Furthermore, in the first to sixth embodiments described below, the basic structure and functions described above are applied. Therefore, only different aspects of the embodiments will be described.

According to the first embodiment, a detailed frequency selective aperiodic CSI report is derived from a DL CC that carries a UL grant with an aperiodic CSI trigger.
That is, if the UE 11 receives a UL grant with a trigger (a request to provide aperiodic channel information) on a particular component carrier, the UE 11 will receive the channel state or quality information on this particular component carrier. Know what must be detected.
Thus, an indication of which particular component carrier to select is provided by sending a request on this particular component carrier, in this case a UL grant containing the request.

According to the second embodiment, an indicator is provided that indicates for which CC the frequency selectivity report should be calculated within the UL grant used to trigger the aperiodic CSI report. For example, the indicator can include 1-3 bits, for example, to indicate 5 component carriers defined by LTE-A.
In particular, this indicator may be similar to a carrier indicator field (CIF) used to schedule data between CCs.
Alternatively, some unused fields in the UL grant can be used. For example, Rel'8 DCI format 0 has a single padding bit, potentially to indicate whether a primary component carrier or one of the secondary CCs should be reported. Can use a single padding bit. For example, the secondary CC can be instructed by using a hopping pattern.
For example, the hopping pattern is www. IP. com, published as "Downlink PDCCH signaling and CQI measurement for LTE-A bandwidth extension", no. This is described in IPCOM000178173D. Specifically, the secondary component carriers to be monitored are indicated by C _n and M component carriers C ₀ , C ₁ . . . If C _M is present, the value of n can be calculated as follows:
n = (SFN + UE ID) mod M
Here, SFN is a system frame number, and UE ID is a UE identification number (usually 16 bits). In that case, C _n is the secondary component carrier to be selected / used. In LTE 10, if all available CCs (5) are used (ie, one is a primary CC and four are secondary CCs), M can be 4.

Thus, in summary, according to the second embodiment, a specific indicator is used to specify the component carrier on which the channel condition is to be detected.
According to the third embodiment, the UE sends a CSI report configured for the primary DL CC whenever it receives a UL grant with a request to send aperiodic CSI. That is, in this case, the component carrier for which the CSI report is to be determined is determined in advance, that is, it is the primary component carrier.

In this case, the configured CSI report (configured via RRC) may be frequency selective.
In addition, the UE may also transmit wideband CSI for other CCs that are configured and activated.

According to the fourth embodiment, the UL grant includes a combined display of the scheduled UL CC and the DL CC from which the frequency selective CSI report is derived. That is, according to the fourth embodiment, in the UL grant CIF design, the possibility of simultaneously indicating the DL CC to be reported is considered.
This can be done, for example, during the design of a new potential UL resource grant that is being considered for SU-MIMO (Single User Multiple Input Multiple Output). This grant has a completely new design and potentially leaves room for a more advanced display of CSI (or CQI) reporting modes.
According to the fifth embodiment, the DL CC from which the frequency selective aperiodic CSI report is derived is configured semi-statically using higher layer signaling (eg RRC or MAC). Is done. That is, as in the case of the third embodiment, the component carrier for which the report is determined is predetermined or preset, so that when the UE 12 receives an aperiodic trigger, which component carrier Know what to evaluate.
According to the sixth embodiment, the unused portion of the UL grant is used to indicate the selected component carrier.
That is, if requested to send an aperiodic CSI report without UL data at the same time, some signaling bits / states (eg, MCS, NDI, and resource allocation signaling) are present in the UL grant. Unused and present. They can be used to indicate the DL CC for which frequency selective CSI is measured and reported, so information for indicating the DL CC is included in such unused signaling bits or states. Or some of the signaling bits or states can be reinterpreted for this information.

Thus, the following benefits are achieved by the embodiments described above.
For eNode-B, the ability to request a detailed aperiodic CSI report for a desired CC is beneficial to supplement efficient scheduling and link adaptation decisions. As an example, an eNode-B may have data destined for a specific UE that is transmitted exclusively on a single CC. In such a case, it is beneficial for the eNode-B to request CSI for the desired CC that is about to be scheduled.
Currently there are no mechanisms available to achieve this, so there is a need to standardize such mechanisms.
The solution described above requires minimal effort for standardization as it does not need to define a new CA-specific reporting format.
Note that some embodiments described above are directed to LTE-A. However, LTE-A is only an example, and embodiments of the present invention can be applied to any radio access technology where system bandwidth is divided into subbands and component carriers are monitored for channel quality. .

According to a first aspect of some embodiments of the invention,
A receiver configured to receive a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
A processor configured to determine a selected downlink component carrier and to determine channel information for the selected downlink component carrier;
And a transmitter configured to transmit channel information for a selected downlink component carrier.
The first aspect can be modified as follows.

The processor can be configured to determine a selected downlink component carrier based on which component carrier has carried a request to provide aperiodic channel information.
The processor can be configured to determine a selected downlink component carrier based on an indicator transmitted with a request to provide aperiodic channel information.
Requests and indicators seeking to provide aperiodic channel information can be included in the uplink grant.

The selected downlink component carrier can be a predetermined downlink component carrier, and when the processor receives a request to provide aperiodic channel state information, the channel for the predetermined downlink component carrier Information can be configured to be determined.
The predetermined downlink component carrier may be a primary downlink component carrier.
A given downlink component carrier can be configured using control signaling.
A given downlink component carrier can be configured by a network control element.
A request to provide aperiodic channel information can be included in the uplink grant, which includes a combined indication of the scheduled uplink component carrier and the selected downlink component carrier. .
The combination display can be included in the carrier indicator field.
A request to provide aperiodic channel information may be included in the uplink grant, and if requested to transmit aperiodic channel information without uplink data at the same time, the aperiodic channel information Can be included in unused signaling bits or states, or some of the signaling bits or states are reinterpreted with respect to requests to provide aperiodic channel information.
The processor may be configured to provide channel information for at least one of the other component carriers other than the selected component carrier, and the transmitter may be for at least one of the other component carriers. The channel information can be configured to be transmitted.

The channel information for at least one of the other component carriers may be broadband channel information.
At least one of the other component carriers can be configured using control signaling.
At least one of the other component carriers can be configured using control signaling by a network control element.

The control signaling can be radio resource control signaling or medium access control signaling.
Information about at least one of the other component carriers can be included in a request to provide aperiodic channel information.
A request to provide aperiodic channel information can be included in the uplink grant.

The transmitter can be configured to transmit channel information to the network control element.
The network control element can be an eNode-B, a relay node, or a home eNode-B.
The channel information can include channel state information and / or channel quality indicators.
The device may be user equipment or may be part of user equipment.

According to a second aspect of some embodiments of the invention,
A processor configured to generate a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
And a transmitter configured to transmit the request.
The second aspect can be modified as follows.
The apparatus can further comprise a receiver configured to receive the aperiodic channel information transmitted in response to the request to provide aperiodic channel information.
The transmitter can be configured to send a request to provide aperiodic channel information on a component carrier for which aperiodic channel information is provided.
The processor can be configured to generate an indicator for determining a selected downlink component carrier, and the transmitter is configured to transmit the indicator with a request to provide aperiodic channel information can do.

Requests and indicators seeking to provide aperiodic channel information can be included in the uplink grant.
The selected downlink component carrier may be a predetermined downlink component carrier.
The predetermined downlink component carrier may be a primary downlink component carrier.
A given downlink component carrier can be configured using control signaling.
The control signaling can be radio resource control signaling or medium access control signaling.
The processor can be configured to include in the uplink grant a request to provide aperiodic channel information, the uplink grant being scheduled and the selected downlink component carrier And a combination display.
The processor can be configured to include the combination indication in the carrier indicator field.
The processor may be configured to include in the uplink grant a request to provide aperiodic channel information and is required to transmit aperiodic channel information without uplink data at the same time The request to provide aperiodic channel information is included in unused signaling bits or states, or some of the signaling bits or states are reinterpreted with respect to requests to provide aperiodic channel information. It can be configured to be able to.
The processor can be configured to generate a request to provide channel information for at least one of the other component carriers other than the selected component carrier.
The channel information for at least one of the other component carriers may be broadband channel information.

The receiver can be configured to receive aperiodic channel information from the user equipment.
The processor may be configured to include in the uplink grant a request to provide aperiodic channel information.
The device can be a network control element or can be part of a network control element. The network control element may be eNode-B.
The channel information can include channel state information and / or channel quality indicators.

According to a third aspect of some embodiments of the invention,
Receiving a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
Determining a downlink component carrier to be selected;
Determining channel information for the selected downlink component carrier;
Transmitting channel information for selected downlink component carriers.
The third aspect can be modified as follows.
The selected downlink component carrier can be determined based on which component carrier has carried a request to provide aperiodic channel information.
The selected downlink component carrier can be determined based on an indicator transmitted with a request to provide aperiodic channel information.

Requests and indicators seeking to provide aperiodic channel information can be included in the uplink grant.
The selected downlink component carrier can be a predetermined downlink component carrier, and determines channel information for a predetermined downlink component carrier upon receiving a request to provide aperiodic channel information. be able to.
The predetermined downlink component carrier may be a primary downlink component carrier.
A given downlink component carrier can be configured using control signaling.
A given downlink component carrier can be configured by a network control element.

A request to provide aperiodic channel information can be included in the uplink grant, which includes a combined indication of the scheduled uplink component carrier and the selected downlink component carrier. be able to.
The combination display can be included in the carrier indicator field.
A request to provide aperiodic channel information may be included in the uplink grant, and if requested to transmit aperiodic channel information without uplink data at the same time, the aperiodic channel information The request to provide the can be included in unused signaling bits or states, or some of the signaling bits or states can be reinterpreted with respect to the request to provide aperiodic channel information .

The method is
Providing channel information for at least one of the other component carriers other than the selected component carrier;
Transmitting channel information for at least one of the other component carriers.
The channel information for at least one of the other component carriers may be broadband channel information.
At least one of the other component carriers can be configured using control signaling.
At least one of the other component carriers can be configured by a network control element.

The control signaling can be radio resource control signaling or medium access control signaling.
Information about at least one of the other component carriers can be included in a request to provide aperiodic channel information.
The channel information can be sent to the network control element.
The network control element can be an eNode-B, a relay node, or a home eNode-B.
A request to provide aperiodic channel information can be included in the uplink grant.
The method can be implemented by a user equipment or a part of the user equipment.
The channel information can include channel state information and / or channel quality indicators.

According to a fourth aspect of some embodiments of the invention,
Generating a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
Sending the request.
The fourth aspect can be modified as follows.
The method is
The method may further include receiving aperiodic channel information transmitted in response to a request to provide aperiodic channel information.
A request can be sent to provide aperiodic channel information on a component carrier for which aperiodic channel information is provided.
The method is
The method may further comprise generating an indicator for determining a selected downlink component carrier, wherein the indicator is transmitted with a request to provide aperiodic channel information.
Requests and indicators seeking to provide aperiodic channel information can be included in the uplink grant.

The selected downlink component carrier may be a predetermined downlink component carrier.
The predetermined downlink component carrier may be a primary downlink component carrier.
A given downlink component carrier can be configured using control signaling.

The control signaling can be radio resource control signaling or medium access control signaling.
The method is
Including in the uplink grant a request to provide aperiodic channel information, wherein the uplink grant includes a combination indication of the scheduled uplink component carrier and the selected downlink component carrier The method may further include a step.
The combination display can be included in the carrier indicator field.
The method is
Including in the uplink grant a request to provide aperiodic channel information;
If requested to transmit aperiodic channel information without uplink data at the same time, including a request to provide aperiodic channel information in unused signaling bits or states, or signaling bits or Reinterpreting some of the states with respect to a request to provide aperiodic channel information.
The method is
Generating a request to provide channel information for at least one of the other component carriers other than the selected component carrier.
The channel information for at least one of the other component carriers may be broadband channel information.
Aperiodic channel information may be received from user equipment.
A request to provide aperiodic channel information can be included in the uplink grant.
The method can be implemented by a network control element or part of a network control element, which can be an eNode-B.
The channel information can include channel state information and / or channel quality indicators.

According to a fifth aspect of some embodiments of the present invention, code means for performing a method according to any one of the third and fourth aspects and modifications thereof when executed on a computer. A computer program product is provided.
The computer program product is embodied on a computer readable medium.
The computer program product may be loadable directly into the computer's internal memory.

According to a sixth aspect of some embodiments of the present invention,
Means for receiving a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
Means for determining a selected downlink component carrier and determining channel information for the selected downlink component carrier;
Means for transmitting channel information for selected downlink component carriers is provided.
The sixth aspect can be modified as follows.

The apparatus can comprise means for determining a selected downlink component carrier based on which component carrier carried a request to provide aperiodic channel information.
The apparatus can comprise means for determining a selected downlink component carrier based on an indicator transmitted with a request to provide aperiodic channel information.
The apparatus transmits means for providing channel information for at least one of the other component carriers other than the selected component carrier and channel information for at least one of the other component carriers. The means can be provided.

According to a seventh aspect of some embodiments of the invention,
Means for generating a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
And a means for transmitting the request.
The seventh aspect can be modified as follows.
The apparatus can further comprise means for receiving transmitted aperiodic channel information in response to a request to provide aperiodic channel information.
The apparatus can comprise means for transmitting a request to provide aperiodic channel information on a component carrier for which aperiodic channel information is provided.
The apparatus can comprise means for generating an indicator for determining a selected downlink component carrier and means for transmitting the indicator with a request to provide aperiodic channel information.
The apparatus can comprise means for including in the uplink grant a request to provide aperiodic channel information, wherein the uplink grant includes a scheduled uplink component carrier and a selected downlink component. A combination display with the carrier can be included.

The apparatus can comprise means for including a combination indication in the carrier indicator field.
The apparatus may comprise means for including in the uplink grant a request to provide aperiodic channel information, and is requested to transmit aperiodic channel information without uplink data at the same time. Means for including a request to provide aperiodic channel information in unused signaling bits or states, or a request to provide some of the signaling bits or states to provide aperiodic channel information. Means can be provided for reinterpretation.
The apparatus can comprise means for generating a request to provide channel information for at least one of other component carriers other than the selected component carrier.
The apparatus can comprise means for receiving aperiodic channel information from user equipment.

The apparatus can comprise means for including in the uplink grant a request to provide aperiodic channel information.
It should be understood that any of the above modifications may be applied singly or in combination to the respective aspects and / or embodiments to which they refer, unless explicitly stated to exclude alternatives.

With respect to the objects of the invention described herein above, the following should be noted.
Implemented as a software code part, a processor of a network element or terminal (example of device, apparatus and / or module thereof, or entity including apparatus and / or module therefor) Method steps that are likely to be performed using are independent of the software code and use any known or future developed programming language as long as the functionality defined by the method steps is maintained. And can be clearly described.
In general, any method step is suitable to be implemented as software or by hardware without changing the inventive idea with respect to the functions performed.
Implemented as a hardware component of a device defined on it (eg, a device that implements the functionality of the device according to the embodiments described above, a UE described above, eNode-B, etc.) or any module thereof. The likely method steps and / or devices, units or means are independent of the hardware, eg ASIC (Application Specific Integrated Circuit) component, FPGA (Field Programmable Gate Array) component, CPLD ( Using complex programmable logic (DSP) components or DSP (digital signal processor) components, MOS (metal oxide semiconductor), CMOS (complementary MOS), BiMOS (bipolar MOS), BiCMOS (bipolar CMOS), ECL ( D Jitter coupled logic), such as TTL (transistor transistor logic), may be implemented using any known hardware technology or hardware technology developed in the future, or any hybrid thereof.
A device, unit, or means may be implemented as a separate device, unit, or means (eg, an apparatus as defined above, or any one of its respective means). As long as the functions of the units or means are maintained, it is not excluded to implement them in a distributed manner in the system.
A device can be represented by a semiconductor chip, a chipset, or a (hardware) module that includes such a chip or chipset, but instead of the function of the device or module being implemented in hardware, It does not exclude the possibility of being implemented as software in a (software) module, such as a computer program or computer program product, containing executable software code portions that run / execute on a processor.
A device can be considered as a single device or, for example, a collection of two or more devices regardless of whether the functions cooperate with each other or are independent of each other even though they are in the same device housing It can be regarded as a body.

  It should be noted that the embodiments and examples described above are provided for illustrative purposes only and are in no way intended to limit the invention thereto. On the contrary, the intention is to cover all modifications and changes coming within the spirit and scope of the appended claims.

11 User equipment (UE)
12 eNode-B
111, 123 Receiver 112, 122 Processor 113, 121 Transmitter

Claims (60)

A receiver configured to receive a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
A processor configured to determine the selected downlink component carrier and to determine channel information for the selected downlink component carrier;
And a transmitter configured to transmit the channel information for the selected downlink component carrier.   The processor of claim 1, wherein the processor is configured to determine the selected downlink component carrier based on which component carrier carried the request to provide the aperiodic channel information. The device described.   The apparatus of claim 1, wherein the processor is configured to determine the selected downlink component carrier based on an indicator transmitted with the request to provide aperiodic channel information.   4. The apparatus of claim 3, wherein the request to provide aperiodic channel information and the indicator are included in an uplink grant.   The selected downlink component carrier is a predetermined downlink component carrier, and the processor relates to the predetermined downlink component carrier when the processor receives the request to provide aperiodic channel state information; The apparatus of claim 1, configured to determine channel information.   The apparatus of claim 5, wherein the predetermined downlink component carrier is a primary downlink component carrier.   The apparatus according to claim 5 or 6, wherein the predetermined downlink component carrier is configured by a network control element.   The request for providing aperiodic channel information is included in an uplink grant, wherein the uplink grant displays a combined indication of the scheduled uplink component carrier and the selected downlink component carrier. The apparatus of claim 1 comprising:   The apparatus of claim 8, wherein the combination indication is included in a carrier indicator field.   If the request to provide aperiodic channel information is included in the uplink grant and is requested to transmit the aperiodic channel information without uplink data at the same time, the aperiodic channel information The request to provide an included in unused signaling bits or states, or some of the signaling bits or states are reinterpreted with respect to the request to provide aperiodic channel information, The apparatus of claim 1. The processor is configured to provide channel information for at least one of the other component carriers other than the selected component carrier;
The transmitter is configured to transmit the channel information for the at least one of the other component carriers;
The apparatus according to claim 1.   The apparatus of claim 11, wherein the channel information for the at least one of the other component carriers is broadband channel information.   The apparatus according to claim 11 or 12, wherein the at least one of the other component carriers is configured by a network control element.   The apparatus according to claim 12 or 13, wherein information regarding the at least one of the other component carriers is included in the request to provide aperiodic channel information.   15. Apparatus according to any of claims 1 to 3, 5 to 7, or 11 to 14, wherein the request for providing aperiodic channel information is included in an uplink grant. A processor configured to generate a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
A transmitter configured to transmit the request.   The apparatus of claim 16, further comprising a receiver configured to receive aperiodic channel information transmitted in response to the request to provide aperiodic channel information.   The transmitter is configured to transmit the request to provide the aperiodic channel information on the component carrier for which the aperiodic channel information is provided. 18. The device according to item 17.   The processor is configured to generate an indicator for determining the selected downlink component carrier so that the transmitter transmits the indicator with the request to provide aperiodic channel information. The apparatus according to claim 16 or 17, wherein the apparatus is configured as follows.   21. The apparatus of claim 19, wherein the request to provide aperiodic channel information and the indicator are included in an uplink grant.   The apparatus according to claim 16 or 17, wherein the selected downlink component carrier is a predetermined downlink component carrier.   The apparatus of claim 21, wherein the predetermined downlink component carrier is a primary downlink component carrier.   23. The apparatus of claim 21 or 22, wherein the predetermined downlink component carrier is configured using control signaling.   The processor is configured to include in the uplink grant the request to provide aperiodic channel information, the uplink grant being scheduled uplink component carrier and the selected downlink component; 18. Apparatus according to claim 16 or 17, comprising a combination indication with a carrier.   25. The apparatus of claim 24, wherein the processor is configured to include the combination indication in a carrier indicator field.   The processor is configured to include the request to provide aperiodic channel information in an uplink grant and is requested to transmit the aperiodic channel information without uplink data at the same time The request to provide aperiodic channel information to include in the unused signaling bits or states, or to request some of the signaling bits or states to provide aperiodic channel information. 18. An apparatus according to claim 16 or 17 configured to reinterpret with respect to. The processor is configured to generate a request to provide channel information for at least one of the other component carriers other than the selected component carrier;
27. Apparatus according to any of claims 16 to 26.   28. The apparatus of claim 27, wherein the channel information for the at least one of the other component carriers is broadband channel information.   29. The apparatus of any of claims 16-19, 21-23, or 25-28, wherein the processor is configured to include the request to provide aperiodic channel information in an uplink grant. . Receiving a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
Determining the selected downlink component carrier;
Determining channel information for the selected downlink component carrier;
Transmitting the channel information for the selected downlink component carrier.   31. The method of claim 30, wherein the selected downlink component carrier is determined based on which component carrier carried the request to provide the aperiodic channel information.   32. The method of claim 30, wherein the selected downlink component carrier is determined based on an indicator transmitted with the request for providing aperiodic channel information.   35. The method of claim 32, wherein the request to provide aperiodic channel information and the indicator are included in an uplink grant.   When the selected downlink component carrier is a predetermined downlink component carrier and the request for providing aperiodic channel information is received, the channel information regarding the predetermined downlink component carrier is: 32. The method of claim 30, wherein the method is established.   35. The method of claim 34, wherein the predetermined downlink component carrier is a primary downlink component carrier.   36. A method according to claim 34 or 35, wherein the predetermined downlink component carrier is configured by a network control element.   The request for providing aperiodic channel information is included in an uplink grant, wherein the uplink grant displays a combined indication of the scheduled uplink component carrier and the selected downlink component carrier. 32. The method of claim 30, comprising.   38. The method of claim 37, wherein the combination indication is included in a carrier indicator field.   If the request to provide aperiodic channel information is included in the uplink grant and is requested to transmit the aperiodic channel information without uplink data at the same time, the aperiodic channel information The request to provide a non-periodic channel information is included, or some of the signaling bits or states are reinterpreted with respect to the request to provide aperiodic channel information, The method of claim 30. Providing channel information for at least one of the other component carriers other than the selected component carrier;
40. The method of any one of claims 30 to 39, further comprising: transmitting the channel information for the at least one of the other component carriers.   41. The method of claim 40, wherein the channel information for the at least one of the other component carriers is broadband channel information.   42. A method according to claim 40 or 41, wherein the at least one of the other component carriers is configured by a network control element.   42. A method according to claim 40 or 41, wherein information regarding the at least one of the other component carriers is included in the request to provide aperiodic channel information.   44. A method according to any of claims 30 to 32, 34 to 38, or 40 to 43, wherein the request to provide aperiodic channel information is included in an uplink grant. Generating a request to provide aperiodic channel information for a selected downlink component carrier of the plurality of component carriers;
Sending the request. 46. The method of claim 45, further comprising: receiving aperiodic channel information transmitted in response to the request to provide aperiodic channel information.   47. A method according to claim 45 or 46, wherein the request for providing the aperiodic channel information is transmitted on the component carrier for which the aperiodic channel information is provided. The method further comprising: generating an indicator for determining the selected downlink component carrier, wherein the indicator is transmitted with the request to provide aperiodic channel information. The method according to 45 or 46.   49. The method of claim 48, wherein the request to provide aperiodic channel information and the indicator are included in an uplink grant.   47. A method according to claim 45 or 46, wherein the selected downlink component carrier is a predetermined downlink component carrier.   51. The method of claim 50, wherein the predetermined downlink component carrier is a primary downlink component carrier.   52. A method according to claim 50 or 51, wherein the predetermined downlink component carrier is configured using control signaling. Including the request to provide included aperiodic channel information in an uplink grant, the uplink grant being scheduled uplink component carrier, and the selected downlink component carrier; 47. The method of claim 45 or 46, further comprising the step of:   54. The method of claim 53, wherein the combination indication is included in a carrier indicator field. Including in the uplink grant the request to provide aperiodic channel information;
If requested to transmit the aperiodic channel information without uplink data at the same time, including the request to provide aperiodic channel information in unused signaling bits or states, or Re-interpreting some of the signaling bits or states with respect to the request for providing aperiodic channel information. 56. The method according to any of claims 45 to 55, further comprising: generating a request to provide channel information for at least one other component carrier other than the selected component carrier.   57. The method of claim 56, wherein the channel information for the at least one of the other component carriers is broadband channel information.   58. A method according to any of claims 45 to 48, 50 to 52, or 56 to 57, wherein the request to provide aperiodic channel information is included in an uplink grant.   59. A computer program comprising code means for performing the method of any one of claims 30 to 58 when executed on a processing means or module.   60. The computer program of claim 59, wherein the computer program is embodied on a computer readable medium.

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