Abstract: A method of discarding PDCP PDUs submitted for transmission includes submitting the PDCP PDU to a first entity for transmission over a first physical layer, and submitting the PDCP PDU to a second entity for transmission over a second physical layer. In response to determining that a predetermined time period has elapsed since the submission of the PDCP PDU, the first entity and the second entity are instructed to discard the PDCP PDU without transmission, or one of the first entity and the second entity are instructed to discard the PDCP PDU in response to an indication of transmission or delivery of the PDCP PDU by the other entity. Related apparatus and computer program product(s) are disclosed.

Abstract: Methods and apparatus are provided. In an example aspect, a method performed by a wireless device is provided. The method includes initiating a procedure to determine whether a channel in unlicensed spectrum for transmission of data to a base station using unlicensed spectrum is occupied, and before completion of the procedure, transmitting a scheduling request to the base station, the scheduling request for transmission of the data to the base station using licensed spectrum.

Abstract: A method by a wireless device includes receiving a new grant for sending information. The new grant is associated with at least one transmission resource overlapping with at least one resource of a previous grant. The wireless device determines a highest priority between a priority of the new grant and a priority of the previous grant. The priority of the new grant is determined based on at least one of: one or more logical channels (LCHs) associated with the new grant and one or more medium access control-control element (MAC CEs,) mapped into the new grant. The priority of the previous grant is determined based on at least one of: one or more LCHs mapped into the previous grant and one or more MAC CEs mapped into the previous grant. The wireless device determines to use the at least one transmission resource for the one of the new grant and the previous grant having the highest priority.

Abstract: Methods and apparatus are provided. In an example aspect, a method performed by a wireless device is provided. The method comprises receiving an indication that data scheduled to be transmitted from the wireless device to a network node on a first cell using unlicensed spectrum should be transmitted on a second cell different to the first cell, and transmitting the data on the second cell.

Abstract: Embodiments include methods performed by a user equipment (UE). Such methods include receiving, from a network node in a radio access network (RAN), a first control message identifying which of a plurality of configured radio link control (RLC) entities are to be activated for PDCP duplication. The plurality of configured RLC entities are associated with a radio bearer between the UE and the RAN. Such methods include subsequently receiving, from the network node, a second control message indicating activation or deactivation of PDCP duplication for the configured RLC entities. The second control message has a different format than the first control message. Such methods include activating or deactivating PDCP duplication for the configured RLC entities based on the first control message and the second control message. Other embodiments include complementary methods perform by network nodes, as well as UEs and network nodes configured to perform such methods.

Abstract: A user equipment (UE) transmits an SR to a network node using a first transmission duration a particular number of times. The UE then determines a longer transmission duration for transmitting a further SR based on determining that no response has been received from the network node in response to any of the particular number of times the SR was transmitted. The UE transmits a further SR to the network node using the longer transmission duration.

Abstract: A method, performed by a wireless device is described. The method is for handling a failure in a secondary cell serving the wireless device. The secondary cell and a primary cell serve the wireless device with carrier aggregation (CA) in a wireless communications network. The wireless device determines the failure in the secondary cell. The determination is based on a determination of a radio link control failure. The wireless device initiates sending an indication to a network node. The network node is one of a first network node and a second network node. The indication is based on the determined failure of the secondary cell. A method, performed by the network node is also described. The network node receives the indication and initiates a second procedure.

Abstract: Apparatuses and methods are disclosed for preemption priority level for Uplink Control Information (UCI) and/or Physical Uplink Shared Channel (PUSCH) conflict resolution. In one embodiment, a method implemented in a network node includes indicating to a wireless device (WD) a priority associated with at least one uplink (UL) channel; and receiving at least one UL signal based at least in part on the indicated priority. In another embodiment, a method implemented in a WD includes determining a priority associated with at least one of at least two uplink (UL) channels; and resolving a conflict between the at least two uplink channels based at least in part on the determined priority.

Abstract: Methods and apparatus are provided. In an example aspect, a method of transmitting data performed by a wireless device is provided, wherein the wireless device is associated with multiple serving cells. The method comprises transmitting data to a network node on one or more of the serving cells based on a respective cell weighting for each of the serving cells.

Abstract: Methods and apparatus are provided. In an example aspect, a method of transmitting data is provided. The method comprises determining if a first channel on a first cell is occupied and, if the first channel on the first cell is occupied for at least a predetermined period, transmitting the data on a second channel on a second cell.

Abstract: Methods and apparatus are provided. In an example aspect, a method in a network node is provided, the method comprising monitoring unlicensed spectrum access attempts for transmissions to and/or from at least one User Equipment, UE, in a first group of UEs configured to use unlicensed spectrum to send uplink transmissions and/or receive downlink transmissions and, in response to the monitoring, causing the UEs in the first group to use licensed spectrum to send uplink transmissions and/or receive downlink transmissions.

Abstract: A terminal device for a wireless communication network is configurable with a plurality of transmission time intervals. An example method comprises: receiving a grant message comprising an indication of radio resources in which the terminal device can transmit one or more wireless messages, the radio resources being configured according to a first transmission time interval of the plurality of transmission time intervals; determining the presence of data to transmit, the data being associated with a logical channel; determining a maximum transmission time interval associated with the logical channel; and, responsive to a determination that the maximum transmission time interval associated with the logical channel is less than the first transmission time interval, transmitting a scheduling request message. The scheduling request message is configured according to a second transmission time interval of the plurality of transmission time intervals, shorter than the first.

Abstract: A UE operating in a network that supports dual connectivity operation is configured to minimize the transmission of unnecessary UE failure indications. The UE detects secondary cell group (SCG) failure for the UE, in response to detecting one of a plurality of SCG failure-triggering events. The UE sends a UE failure indication message, in response to the detecting SCG failure, and refrains from sending further UE failure indication messages in response to SCG failure-triggering events, until the sending of further UE failure indication messages is reenabled. In some cases, the UE sets a state of the UE to a UE prohibit state to prohibit sending further UE failure indication messages while in the UE prohibit state. In other cases, the UE starts a prohibit timer to prohibit sending further UE failure indication messages during the prohibit timer.

Abstract: A hybrid automatic repeat request (HARQ) process for cells configurable for multiple uplink grants is provided. A new rule to define the HARQ process identifiers (IDs) for configured grant is introduced, in cases when multiple configured grant configurations are used. In some embodiments, a method performed by a wireless device for a HARQ process in a cell configurable for multiple configured uplink grants is provided. The method comprises receiving an uplink grant comprising a HARQ process ID; determining that a HARQ process associated with the HARQ process ID is configured for a configured uplink grant based on a HARQ process ID offset; and starting or restarting a configured grant timer for the HARQ process. Selectively starting the configured grant timer depending on whether an identified HARQ process belongs to one of the multiple configured grant configurations, enables the gNB flexibility to schedule retransmissions or not.

Abstract: A terminal device for a wireless communication network is configurable with a plurality of transmission time intervals. An example method comprises: receiving a grant message comprising an indication of radio resources in which the terminal device can transmit one or more wireless messages, the radio resources being configured according to a first transmission time interval of the plurality of transmission time intervals; determining the presence of data to transmit, the data being associated with a logical channel; determining a maximum transmission time interval associated with the logical channel; and, responsive to a determination that the maximum transmission time interval associated with the logical channel is less than the first transmission time interval, transmitting a scheduling request message. The scheduling request message is configured according to a second transmission time interval of the plurality of transmission time intervals, shorter than the first.

Abstract: A method performed by a terminal in a wireless network for determining whether to cancel a scheduling request is provided. The method includes determining that a scheduling request is triggered for requesting an uplink resource for transmission of data to a network node. The method further includes, responsive to an uplink grant from the network node, transmitting the scheduling request to the network node without a cancellation of the scheduling request occurring due to a buffer status report indicator included in a protocol data unit of the terminal.

Abstract: A method by a wireless device (110) includes receiving a first Downlink Semi-Persistent Scheduling (DL SPS) assignment and a second DL SPS assignment from a network node (160). At least one resource associated with the first DL SPS assignment and at least one resource associated with the second DL SPS assignment are at least partially overlapping. The wireless device compares priority information associated with each of the first DL SPS assignment and the second DL SPS assignment and selects a one of the first DL SPS assignment and the second DL SPS assignment that has a higher priority based on the priority information. The wireless device attempts to decode the Physical Downlink Shared Channel (PDSCH) according to the selected one of the first DL SPS assignment and the second DL SPS assignment that has the higher priority.

Abstract: Transmitters consider the size of a gap segment adjacent to at least one negatively acknowledged (NACKed) Radio Link Control (RLC) Service Data Unit (SDU) when considering when and/or how to concatenate one or more NACKed SDU segments for retransmission. Depending on which RLC SDU segment(s) is/are NACKed, e.g., considering the size of NACKed segments in relation to Protocol Data Unit (PDU) header size(s) needed, the transmitter implements a single RLC SDU retransmission or multiple RLC SDU segment retransmissions. In so doing, the solution presented herein not only defines how such transmissions occur, but also provides improved efficiency when retransmitting such NACKed SDU segments.

Abstract: A method of operating a receiver in a communications network includes receiving a protocol data unit, PDU, from a transmitter, wherein the PDU carries at least part of a service data unit, SDU, determining that first and second non-adjacent segments of the SDU were not successfully received at the receiver, and requesting retransmission by the transmitter of a portion of the SDU from a beginning of the first non-adjacent segment to an end of the second non-adjacent segment.

Abstract: A method performed by a wireless device includes receiving a first grant of resources from a network node. The first grant of resources is associated with first prioritization information. The wireless device constructs a Medium Access Control Protocol Data Unit, MAC PDU, based on the first grant. A second grant of resources that overlaps with the first grant of resources is received from the network node, and the second grant of resources is associated with second prioritization information. The wireless device determines whether to pre-empt transmission of the constructed MAC PDU based on comparing the first prioritization information and second prioritization information and pre-empts the transmission of the constructed MAC PDU if the second prioritization information indicates a higher priority than indicated by the first prioritization information.