JPWO2019161173A5 - - Google Patents

Description

[0144] The description of this specification is provided to allow those skilled in the art to make or use the present disclosure. Various amendments to this disclosure will be readily apparent to those of skill in the art, and the comprehensive principles defined herein may be applied to other modifications without departing from the scope of this disclosure. Therefore, this disclosure is not limited to the examples and designs described herein, but should be given the broadest scope consistent with the principles and novel features disclosed herein.
The inventions described in the claims at the time of filing the application of the present application are described below.
[C1]
It ’s a method for wireless communication.
Receiving the first downlink shared channel transmission on the first set of frequency resources during the first transmission time interval (TTI).
Receiving a downlink control transmission with a second set of permissions for a second TTI frequency resource for a second downlink shared channel transmission, wherein the downlink control transmission is the first. A second set of frequency resources that is not part of the first set of frequency resources, comprising an indication that the demodulation reference signal of the downlink shared channel transmission of the second is reused for the second downlink shared channel transmission. Determining whether to rate match the second downlink shared channel transmission around a set of resources in
The second on at least a subset of the second set of frequency resources of the second TTI, at least in part, based on the determination of whether to rate match the second downlink shared channel transmission. To receive downlink shared channel transmissions
How to prepare.
[C2]
Determining whether to rate match the second downlink shared channel transmission is determined by surrounding the resource corresponding to the second downlink controlled transmission in the first TTI. The method according to C1, wherein the transmission is determined to be rate matched.
[C3]
The method of C1, wherein the second set of frequency resources includes said resources corresponding to a second downlink controlled transmission in said first TTI.
[C4]
The method of C1, wherein determining whether to rate match the second downlink shared channel transmission is at least partially based on the number of layers of the second downlink shared channel transmission.
[C5]
Determining that the resources in the second set of frequency resources that are not part of the first set of frequency resources are associated with the second downlink control transmission in the first TTI, and hereby. The second downlink control transmission comprises a control channel demodulation reference signal.
To receive at least a part of the second downlink shared channel transmission on the resource in the second TTI.
The method according to C1, further comprising.
[C6]
Demodulating at least the portion of the second downlink shared channel transmission using the control channel demodulation reference signal.
The method according to C5, further comprising.
[C7]
The downlink control transmission has a rate matching indicator and
The determination of whether to rate match the second downlink shared channel transmission is at least partially based on the rate matching indicator.
The method according to C1.
[C8]
The rate matching indicator is a first indicator associated with a first group of resources in the second set of frequency resources and a second indicator associated with a second group of resources in the second set of frequency resources. Equipped with an indicator of
The determination of whether to rate match is the second group of frequency resources that are not part of the first set of frequency resources for the first group of resources and the second group of resources. It comprises deciding whether to rate match around said resources in the set.
The method according to C7.
[C9]
The method of C1, wherein the demodulation reference signal of the first downlink shared channel transmission is used for channel estimation for all allocated frequency resource blocks of the second TTI.
[C10]
A device for wireless communication
With the processor
A memory that electronically communicates with the processor,
With the instructions stored in the memory
The above-mentioned instruction is
Receiving the first downlink shared channel transmission on the first set of frequency resources during the first transmission time interval (TTI).
Receiving a downlink control transmission with a second set of permissions for a second TTI frequency resource for a second downlink shared channel transmission, wherein the downlink control transmission is the first. The demodulation reference signal of the downlink shared channel transmission is reused for the second downlink shared channel transmission.
Determining whether to rate match the second downlink shared channel transmission around the resources of the second set of frequency resources that are not part of the first set of frequency resources.
The second on at least a subset of the second set of frequency resources of the second TTI, at least in part, based on the determination of whether to rate match the second downlink shared channel transmission. To receive downlink shared channel transmissions
Can be performed by the processor to cause the device to perform.
[C11]
Determining whether to rate match the second downlink shared channel transmission is determined by surrounding the resource corresponding to the second downlink controlled transmission in the first TTI. The device according to C10, comprising determining that the transmission is rate matched.
[C12]
The device according to C10, wherein the second set of frequency resources comprises the resources corresponding to the second downlink controlled transmission in the first TTI.
[C13]
The apparatus of C10, wherein determining whether to rate match the second downlink shared channel transmission is at least partially based on the number of layers of the second downlink shared channel transmission.
[C14]
The command is
Determining that the resources in the second set of frequency resources that are not part of the first set of frequency resources are associated with the second downlink control transmission in the first TTI, and hereby. The second downlink control transmission comprises a control channel demodulation reference signal.
To receive at least a part of the second downlink shared channel transmission on the resource in the second TTI.
The device according to C10, which can be further performed by the processor to cause the device to.
[C15]
The command is
Demodulating at least the portion of the second downlink shared channel transmission using the control channel demodulation reference signal.
The device according to C14, which can be further performed by the processor to cause the device to.
[C16]
The downlink control transmission has a rate matching indicator and
The determination of whether to rate match the second downlink shared channel transmission is at least partially based on the rate matching indicator.
The device according to C10.
[C17]
The rate matching indicator is a first indicator associated with a first group of resources in the second set of frequency resources and a second indicator associated with a second group of resources in the second set of frequency resources. Equipped with an indicator of
The determination of whether to rate match is the second group of frequency resources that are not part of the first set of frequency resources for the first group of resources and the second group of resources. It comprises deciding whether to rate match around said resources in the set.
The device according to C16.
[C18]
The device according to C10, wherein the demodulation reference signal of the first downlink shared channel transmission is used for channel estimation for all allocated frequency resource blocks of the second TTI.
[C19]
A device for wireless communication
A means for receiving a first downlink shared channel transmission on a first set of frequency resources in a first transmission time interval (TTI).
A means for receiving a downlink control transmission with a second set of permissions for a second TTI frequency resource for a second downlink shared channel transmission, wherein the downlink control transmission is described above. It comprises an indication that the demodulation reference signal of the first downlink shared channel transmission is reused for the second downlink shared channel transmission.
A means for determining whether to rate match the second downlink shared channel transmission around the resources of the second set of frequency resources that are not part of the first set of frequency resources.
The second on at least a subset of the second set of frequency resources of the second TTI, at least in part, based on the determination of whether to rate match the second downlink shared channel transmission. As a means to receive downlink shared channel transmissions
A device equipped with.
[C20]
Determining whether to rate match the second downlink shared channel transmission is determined by surrounding the resource corresponding to the second downlink controlled transmission in the first TTI. The device according to C19, comprising determining that the transmission is rate matched.
[C21]
The device according to C19, wherein the second set of frequency resources includes said resources corresponding to a second downlink controlled transmission in said first TTI.
[C22]
The apparatus of C19, wherein determining whether to rate match the second downlink shared channel transmission is at least partially based on the number of layers of the second downlink shared channel transmission.
[C23]
Means for determining that the resources in the second set of frequency resources that are not part of the first set of frequency resources are associated with the second downlink control transmission in the first TTI, and hereby. The second downlink control transmission comprises a control channel demodulation reference signal.
As a means for receiving at least a part of the second downlink shared channel transmission on the resource in the second TTI.
The device according to C19.
[C24]
Means for demodulating at least the portion of the second downlink shared channel transmission using the control channel demodulation reference signal.
23. The apparatus according to C23.
[C25]
The downlink control transmission has a rate matching indicator and
The determination of whether to rate match the second downlink shared channel transmission is at least partially based on the rate matching indicator.
The device according to C19.
[C26]
The rate matching indicator is a first indicator associated with a first group of resources in the second set of frequency resources and a second indicator associated with a second group of resources in the second set of frequency resources. Equipped with an indicator of
The determination of whether to rate match is the second group of frequency resources that are not part of the first set of frequency resources for the first group of resources and the second group of resources. It comprises deciding whether to rate match around said resources in the set.
The device according to C25.
[C27]
The device according to C19, wherein the demodulation reference signal of the first downlink shared channel transmission is used for channel estimation for all allocated frequency resource blocks of the second TTI.
[C28]
A non-temporary computer-readable medium that stores a code for wireless communication, said code.
Receiving the first downlink shared channel transmission on the first set of frequency resources during the first transmission time interval (TTI).
Receiving a downlink control transmission with a second set of permissions for a second TTI frequency resource for a second downlink shared channel transmission, wherein the downlink control transmission is the first. A second set of frequency resources that is not part of the first set of frequency resources, comprising an indication that the demodulation reference signal of the downlink shared channel transmission of the second is reused for the second downlink shared channel transmission. Determining whether to rate match the second downlink shared channel transmission around a set of resources in
The second on at least a subset of the second set of frequency resources of the second TTI, at least in part, based on the determination of whether to rate match the second downlink shared channel transmission. To receive downlink shared channel transmissions
A non-temporary computer-readable medium with instructions that can be executed by the processor to do so.
[C29]
Determining whether to rate match the second downlink shared channel transmission is determined by surrounding the resource corresponding to the second downlink controlled transmission in the first TTI. The non-temporary computer-readable medium of C28, comprising determining transmission to rate match.
[C30]
The non-temporary computer-readable medium according to C28, wherein the second set of frequency resources comprises the resources corresponding to the second downlink controlled transmission in the first TTI.
[C31]
The non-temporary computer according to C28, wherein the determination of whether to rate match the second downlink shared channel transmission is at least partially based on the number of layers of the second downlink shared channel transmission. Readable medium.
[C32]
The command is
Determining that the resources in the second set of frequency resources that are not part of the first set of frequency resources are associated with the second downlink control transmission in the first TTI, and hereby. The second downlink control transmission comprises a control channel demodulation reference signal.
To receive at least a part of the second downlink shared channel transmission on the resource in the second TTI.
The non-temporary computer-readable medium according to C28, which is further executable by the processor to perform the above.
[C33]
The command is
Demodulating at least the portion of the second downlink shared channel transmission using the control channel demodulation reference signal.
The non-temporary computer-readable medium according to C32, which is further executable by the processor to perform the above.
[C34]
The downlink control transmission has a rate matching indicator and
The determination of whether to rate match the second downlink shared channel transmission is at least partially based on the rate matching indicator.
The non-temporary computer-readable medium of C28.
[C35]
The rate matching indicator is a first indicator associated with a first group of resources in the second set of frequency resources and a second indicator associated with a second group of resources in the second set of frequency resources. Equipped with an indicator of
The determination of whether to rate match is the second group of frequency resources that are not part of the first set of frequency resources for the first group of resources and the second group of resources. It comprises deciding whether to rate match around said resources in the set.
The non-temporary computer-readable medium of C34.
[C36]
The non-temporary computer readable according to C28, wherein the demodulation reference signal of the first downlink shared channel transmission is used for channel estimation for all allocated frequency resource blocks of the second TTI. Medium.

Claims (15)

It ’s a method for wireless communication.
Receiving the first downlink shared channel transmission on the first set of frequency resources during the first transmission time interval (TTI).
Receiving a downlink control transmission with a second set of permissions for a second TTI frequency resource for a second downlink shared channel transmission, wherein the downlink control transmission is the first. The demodulation reference signal of the downlink shared channel transmission is reused for the second downlink shared channel transmission.
Determining whether to rate match the second downlink shared channel transmission around the resources of the second set of frequency resources that are not part of the first set of frequency resources.
The second on at least a subset of the second set of frequency resources of the second TTI, at least in part, based on the determination of whether to rate match the second downlink shared channel transmission. How to prepare for receiving downlink shared channel transmissions. Determining whether to rate match the second downlink shared channel transmission is determined by surrounding the resource corresponding to the second downlink controlled transmission in the first TTI. The method of claim 1, comprising determining that the transmission is rate matched. The method of claim 1, wherein the second set of frequency resources comprises the resources corresponding to the second downlink controlled transmission in the first TTI. The method of claim 1, wherein determining whether to rate match the second downlink shared channel transmission is at least partially based on the number of layers of the second downlink shared channel transmission. Determining that the resources in the second set of frequency resources that are not part of the first set of frequency resources are associated with the second downlink control transmission in the first TTI, and hereby. The second downlink control transmission comprises a control channel demodulation reference signal.
The method of claim 1, further comprising receiving at least a portion of the second downlink shared channel transmission on the resource in the second TTI. 5. The method of claim 5, further comprising demodulating at least the portion of the second downlink shared channel transmission using the control channel demodulation reference signal. The downlink control transmission has a rate matching indicator and
The determination of whether to rate match the second downlink shared channel transmission is at least partially based on the rate matching indicator.
The method according to claim 1. The rate matching indicator is a first indicator associated with a first group of resources in the second set of frequency resources and a second indicator associated with a second group of resources in the second set of frequency resources. Equipped with an indicator of
The determination of whether to rate match is the second group of frequency resources that are not part of the first set of frequency resources for the first group of resources and the second group of resources. It comprises deciding whether to rate match around said resources in the set.
The method according to claim 7. The method of claim 1, wherein the demodulation reference signal of the first downlink shared channel transmission is used for channel estimation for all allocated frequency resource blocks of the second TTI. A device for wireless communication
A means for receiving a first downlink shared channel transmission on a first set of frequency resources in a first transmission time interval (TTI).
A means for receiving a downlink control transmission with a second set of permissions for a second TTI frequency resource for a second downlink shared channel transmission, wherein the downlink control transmission is described above. It comprises an indication that the demodulation reference signal of the first downlink shared channel transmission is reused for the second downlink shared channel transmission.
A means for determining whether to rate match the second downlink shared channel transmission around the resources of the second set of frequency resources that are not part of the first set of frequency resources.
The second on at least a subset of the second set of frequency resources of the second TTI, at least in part, based on the determination of whether to rate match the second downlink shared channel transmission. A device with means for receiving downlink shared channel transmissions. Determining whether to rate match the second downlink shared channel transmission is determined by surrounding the resource corresponding to the second downlink controlled transmission in the first TTI. 10. The apparatus of claim 10 , wherein the transmission is determined to be rate matched. 10. The apparatus of claim 10 , wherein the second set of frequency resources comprises the resources corresponding to a second downlink controlled transmission in the first TTI. 10. The apparatus of claim 10 , wherein determining whether to rate match the second downlink shared channel transmission is at least partially based on the number of layers of the second downlink shared channel transmission. Means for determining that the resources in the second set of frequency resources that are not part of the first set of frequency resources are associated with the second downlink control transmission in the first TTI, and hereby. The second downlink control transmission comprises a control channel demodulation reference signal.
10. The apparatus of claim 10 , further comprising means for receiving at least a portion of the second downlink shared channel transmission on the resource in said second TTI. A non-temporary computer-readable medium that stores a code for wireless communication, said code.
Receiving the first downlink shared channel transmission on the first set of frequency resources during the first transmission time interval (TTI).
Receiving a downlink control transmission with a second set of permissions for a second TTI frequency resource for a second downlink shared channel transmission, wherein the downlink control transmission is the first. The demodulation reference signal of the downlink shared channel transmission is reused for the second downlink shared channel transmission.
Determining whether to rate match the second downlink shared channel transmission around the resources of the second set of frequency resources that are not part of the first set of frequency resources.
The second on at least a subset of the second set of frequency resources of the second TTI, at least in part, based on the determination of whether to rate match the second downlink shared channel transmission. A non-transient computer-readable medium with instructions that can be executed by a processor to receive and perform downlink shared channel transmissions.