JPWO2020089854A5 - - Google Patents

Claims (36)

A method (1700) for use in a network node in a wireless communication network, wherein the method is
Determining a plurality of transmission opportunities (TXOP) for transmitting a paging signal in a plurality of beams (1710), wherein the plurality of beams have a beam order.
A predetermined number of the plurality of TXOPs is assigned to each beam of the plurality of beams (1720), and none of the TXOPs is assigned to two or more beams. , That and
Performing at least one clear channel assessment (CCA) (1730) prior to transmitting the paging signal in one of the TXOPs.
The first of the plurality of beams using one of the plurality of TXOPs assigned to the first beam based on the first successful CCA covering the TXOP used. A method comprising transmitting the paging signal with a beam (1740). The method according to claim 1, further
The first beam to attempt the transmission of the paging signal in response to a CCA failure that suppresses the transmission of the paging signal in one of the TXOPs assigned to the first beam. A method having the use of a TXOP available after the plurality of TXOPs assigned to. The method according to claim 1, wherein a predetermined number of the plurality of TXOPs is assigned to each beam of the plurality of beams.
A method comprising assigning at least the first sequence of TXOPs among the plurality of TXOPs to the plurality of beams in the same order as the beam order. The method according to claim 3, further
Performing a first CCA, wherein the first CCA covers each TXOP in the first sequence of TXOPs, the first CCA being either successful or unsuccessful. When,
In response to the success of the first CCA, each of the first sequences of the TXOP is used to transmit the paging signal in each of the plurality of beams.
Rejecting the paging signal to be transmitted by any of the plurality of beams using any of the first sequences of the TXOP in response to the unsuccessful first CCA. How to have. The method according to claim 3, further
The first CCA is to be performed after at least one TXOP in the first sequence of the TXOP has elapsed, wherein the first CCA takes each of the remaining TXOPs in the first sequence of the TXOP. It's something to cover,
Depending on the success of the first CCA, the paging signal is transmitted on each of at least a plurality of remaining beams using each of the remaining TXOPs in the first sequence of TXOPs. The method comprising, wherein the plurality of remaining beams are the beams of the plurality of beams to which the remaining TXOP in the first sequence of the TXOP is assigned. The method of claim 3, further assigning a predetermined number of the plurality of TXOPs to each beam of the plurality of beams further comprises.
The second sequence of TXOPs of the plurality of TXOPs is assigned to the plurality of beams in the same order as the beam order, and the first TXOP of the second sequence of the TXOPs is the TXOP. The method corresponding to the TXOP in the plurality of TXOPs immediately following the last TXOP in the first sequence of. The method according to claim 6, further
The first CCA is to be performed after at least one TXOP of the first sequence of the TXOP has elapsed, wherein the first CCA is each of the rest of the first sequence of the TXOP. It covers TXOP and at least one TXOP in the second sequence of TXOP.
Responding to the success of the first CCA is to transmit the paging signal, using each of the remaining TXOPs in the first sequence of TXOPs, with each of the plurality of remaining beams. The plurality of remaining beams are the beam of the plurality of beams assigned to the remaining TXOP in the first sequence of the TXOP and the at least one of the second sequence of the TXOP. A method having two TXOPs, and at least transmitting with. The method of claim 7, wherein the at least one TXOP in the second sequence of the TXOP is among the plurality of beams not transmitted in the TXOP of the first sequence of the TXOP. A method comprising a number of consecutive TXOPs equal to the number of beams in the. The method according to any one of claims 1 to 8, further comprising:
Of the plurality of TXOPs assigned to the first beam, despite the previous success of transmitting the paging signal in the first beam in the previous TXOP assigned to the first beam. A method of having an attempt to transmit on all of our TXOPs. The method according to any one of claims 1 to 9, further comprising using one of the plurality of TXOPs to transmit a signal other than the paging signal. The method according to any one of claims 1 to 10, wherein the plurality of TXOPs are used to obtain a configuration indicating to the network node how to transmit the paging signal. Further methods to have. The method according to any one of claims 1 to 11, wherein the plurality of TXOPs correspond to a transmission opportunity of a physical downlink control channel (PDCCH) that does not overlap with an uplink symbol. The method according to any one of claims 1 to 12, wherein the beam sequence follows an index based on the detected sync signal block. The method according to any one of claims 1 to 13, wherein the beam sequence follows a valid sync signal block index or an index based on the sync signal block QCL index. The method according to any one of claims 1 to 14, further comprising reusing the at least one CCA for two or more actual transmissions using the plurality of TXOPs. How to have. The method according to any one of claims 1 to 15, further comprising transmitting the paging signal twice on the same beam. The method according to any one of claims 1 to 16, further comprising mapping a plurality of sync signal block beams to the plurality of beams used for the paging signal, the sync signal block beam. A method in which the number of beams is greater than the number of the plurality of beams used for the paging signal. The network node (160, 160b) in the wireless communication network (106), and the network node is
A memory (180) configured to store instructions,
It has a processing circuit (170) configured to execute the instructions, whereby the network node has.
Determining multiple transmission opportunities (TXOPs) that attempt to transmit a paging signal with multiple beams, said multiple beams have a beam order.
Allocating a predetermined number of the plurality of TXOPs to each beam of the plurality of beams, and none of the TXOPs is assigned to two or more beams.
Based on performing at least one clear channel assessment (CCA) prior to transmitting the paging signal on one of the TXOPs and a first successful CCA covering the TXOP used. It is configured to use one of the plurality of TXOPs assigned to the first beam to transmit the paging signal in the first beam of the plurality of beams. Network node. The network node according to claim 18, wherein the network node is further configured to execute the method according to any one of claims 2 to 17 . A method (1800) for use in a wireless device in a wireless communication network, wherein the method is:
Determining multiple monitoring opportunities where a network node may attempt to transmit a paging signal in multiple beams (1810), wherein the plurality of beams have a beam sequence and said multiple monitoring opportunities. Each of the monitoring opportunities is sequentially assigned to each beam of the plurality of beams according to the beam order, and each beam of the plurality of beams is a predetermined number of the plurality of monitoring opportunities. Being assigned,
Monitoring at least a subset of the monitoring opportunities of the plurality of monitoring opportunities for the paging signal (1820).
A method comprising receiving the paging signal at the first beam of the plurality of beams using one or more of the monitoring opportunities monitored by the wireless device (1830). 20. The method of claim 20 , wherein the monitoring opportunity monitored by the wireless device comprises a predetermined number of the plurality of monitoring opportunities assigned to the first beam. 20. The method of claim 20 , wherein the plurality of monitoring opportunities are equally divided into subsets, each of which is associated with a different one of the plurality of beams, said subset. Each of is defined to include the surveillance opportunity assigned to the beam associated with the subset defined to include the (X * S + K) th surveillance opportunity, where S is defined as. The total number of beams in the plurality of beams, where K is the number of said beams among the plurality of beams associated with said subset, the subset being X equal to zero and the predetermined number from zero. A method comprising each integer value up to a value obtained by subtracting 1 from a number and one monitoring opportunity for each value of X against. 22. The method of claim 22 , wherein the monitoring opportunity monitored by the wireless device comprises a subset of the monitoring opportunities associated with the first beam of the plurality of beams. The method according to any one of claims 20 to 23 , further, receiving a signal other than the paging signal at one of the monitoring opportunities monitored by the wireless device. How to have. The method according to any one of claims 20 to 22 , wherein the beam order follows an index based on the detected sync signal block. The method of any one of claims 20-25 , wherein the beam sequence follows an index based on a valid sync signal block index or sync signal block QCL index. The paging signal in the first beam, wherein the method according to any one of claims 20 to 26 , further using two or more of the monitoring opportunities monitored by the wireless device. The way you have to receive. The method according to any one of claims 20 to 27 , wherein the plurality of monitoring opportunities are monitoring opportunities for a physical downlink control channel (PDCCH) that do not overlap with the uplink symbols. The method according to any one of claims 20 to 28 , further determining at least a subset of the monitoring opportunities to be monitored based on the configuration information received from the wireless communication network. , The method of having. 29. The monitoring opportunity of claim 29 , which is further monitored based on a subset of previously received sync signal block transmissions or a previously received subset of sync signal transmissions. A method of determining at least a subset of. A wireless device (110, 110b, 110c, 200) in a wireless communication network (106), wherein the wireless device is.
A memory (130, 215) configured to store instructions, and
The wireless device comprises a processing circuit (120, 201) configured to execute the instruction, whereby the wireless device.
Determining multiple monitoring opportunities on which a network node may attempt to transmit a paging signal in multiple beams, wherein the plurality of beams have a beam sequence and of the plurality of monitoring opportunities. Each monitoring opportunity is sequentially assigned to each beam of the plurality of beams according to the beam order, and each beam of the plurality of beams is assigned a predetermined number of the plurality of monitoring opportunities. That and
At least monitoring a subset of the monitoring opportunities of the plurality of monitoring opportunities for the paging signal, and
A wireless device configured to receive and perform the paging signal on the first beam of the plurality of beams using the monitoring opportunity configured to be monitored by the wireless device. .. The wireless device according to claim 31 , which is configured to perform the method according to any one of claims 21 to 30 . It ’s a computer program ,
Program code for determining multiple monitoring opportunities at which a network node may attempt to transmit a paging signal in multiple beams, wherein the plurality of beams have a beam sequence and said multiple monitoring opportunities. Each of the monitoring opportunities is sequentially assigned to each of the plurality of beams according to the beam order, and each beam of the plurality of beams is a predetermined number of the plurality of monitoring opportunities. Program code and things that can be assigned
Program code for monitoring at least a subset of the monitoring opportunities of the plurality of monitoring opportunities for the paging signal.
A computer program having a program code for receiving the paging signal in the first beam of the plurality of beams using the monitoring opportunity monitored by a wireless device . The computer program according to claim 33 , further comprising a computer-readable program code that operates according to the method according to any one of claims 21 to 30 . It ’s a computer program ,
A program code for determining a plurality of transmission opportunities (TXOP) attempting to transmit a paging signal in a plurality of beams, wherein the plurality of beams have a beam order, and a program code.
A program code for assigning a predetermined number of the plurality of TXOPs to each beam of the plurality of beams, wherein none of the TXOPs is assigned to two or more beams. With the code
The program code for performing at least one clear channel assessment (CCA) prior to transmitting the paging signal in one of the TXOPs and the success of the first CCA covering the TXOP used. Based on, the program code for transmitting the paging signal in the first beam of the plurality of beams using one of the plurality of TXOPs assigned to the first beam. Computer program to have . The computer program according to claim 35 , further comprising a computer-readable program code that operates according to the method according to any one of claims 2 to 17 .