New radio (NR) transmission opportunity (TxOP) structure having flexible starting points are disclosed for wireless communications. When a typical listen before talk (LBT) procedure is performed, the transmitting node will not know ahead of time when the LBT will pass and, thus, when data transmissions can start. NR systems may include a mini-slot design for accommodating transmission units smaller than a slot. Aspects of the present disclosure provide for flexibly increasing the number of potential starting transmission boundaries depending on when the LBT pass is detected. Alternative aspects of the present disclosure determine the potential starting transmission points using a mini-slot based design, a floating slot based design, or a punctured slot based design with a code block group (CBG) level retransmission mechanism.

A communications apparatus includes a plurality of communications circuits and a coexistence management circuit. Each communications circuit is configured to provide wireless communications services in compliance with a protocol. The coexistence management circuit is configured to manage radio activities of the communications circuits. In response to a detection result of at least two radio activities to occur in a subsequent packet time, the coexistence management circuit is configured to determine whether an interference signal related to said at least two radio activities falls in a predetermined frequency band, and when the interference signal falls in the predetermined frequency band, the coexistence management circuit is configured to adjust a transmission power or an execution time of one of said at least two radio activities.

Systems, methods, apparatuses, and computer program products for facilitating transmission of uplink traffic, for example, that has been deprioritized due to resource collision with transmission of other data or control information are provided. One method may include receiving, at a user equipment, a configuration per logical channel (LCH) of triggering criteria relating to resource collision from a network node. The method may also include modifying a logical channel prioritization (LCP) setting for the logical channel (LCH) based on the configuration.

A user equipment (UE) may detect a collision or interference issues of a second UE and transmit information regarding the detected collision to a base station. The second UE may not able to sense the channel on its own and thus may inadvertently use resources already reserved or in use by other UEs. The information regarding the detected collision may include layer-1 identifiers (L1 IDs) and/or layer-2 identifiers (L2 IDs) corresponding to the UE and/or the second UE as well as additional information corresponding to the resource collision. This information may be usable by the base station in determining that the base station has previously communicated with the second UE and may trigger a resource reselection by the second UE. The UE may receive sidelink communications on one or more reselected sidelink transmission resources from the second UE.

Certain aspects of the present disclosure provide techniques for resource allocation with collision indication for sidelink communication. A method that may be performed by a first user equipment (UE) includes receiving a first sidelink transmission from a second UE indicating a first resource reservation; receiving a second sidelink transmission from a third UE indicating a second resource reservation; and transmitting, to at least the second UE, feedback comprising: hybrid automatic retransmission request (HARQ) feedback regarding the first sidelink transmission; and an indication of whether a collision is detected by the first UE between the first resource reservation and the second resource reservation.

A device includes a BLUETOOTH low energy (BLE) link layer (LL) controller configured to maintain links of a link cluster between the device and one or more connected devices that share parameters associated with the link cluster and process packets associated with the links at a LL. The links of the link cluster are established according to a BLE communication standard. The parameters include coordination parameters for connection events on the links and synchronization parameters for packet transmission in the connection events. The device further includes BLE physical link (PHY) interfaces coupled to the BLE LL controller and configured to exchange the packets in the connection events on the links, interface with the BLE LL controller, and process the packets at a PHY layer according to the parameters.

Apparatuses, systems, and methods for a handling uplink listen before talk (LBT) procedure failures in unlicensed bands of 5G NR. A wireless device may count a number of failed transmissions due to LBT procedure failures, e.g., that may occur in one or more transmit/receive occasions. The wireless device may determine that the count has met a threshold, e.g., that a number of failed transmissions has reached the threshold. The wireless device may initiate a recovery procedure based on determining that the count has met the threshold.

The method for feedback for broadcast- or multicast-based device-to-device communication in a wireless communication system, according to one embodiment of the present disclosure, is performed by a first terminal and may comprise the steps of: determining whether or not a collision has occurred in data received from a counterpart terminal; and in response to the determination that a collision has occurred, transmitting feedback information, including collision resource information and terminal operation information, to the counterpart terminal.

An information transmission method includes: determining grant-free uplink transmission configuration information of at least two target UEs, the grant-free uplink transmission configuration information at least comprising LBT detection configuration information of each of the at least two target UEs, the LBT detection configuration information configured to distinguish respective LBT detection priorities of the at least two target UEs for channel collision avoidance, wherein the at least two target UEs share periodic uplink transmission resources in an unlicensed spectrum; and transmitting, to each of the at least two target UEs, the grant-free uplink transmission configuration information, so that any one of the at least two target UEs performs an LBT detection according to the grant-free uplink transmission configuration information, transmits uplink service data through a currently shared uplink transmission resource after the LBT detection succeeds.

Various arrangements for performing uplink grant-free transmissions are presented herein. An instance of user equipment (UE) may determine data that is to be transmitted using a grant-free (GF) uplink transmission to a base station of a cellular network. The UE may select a first GF resource block and a second GF resource block. The UE may transmit GF transmissions that comprise: a data payload and a first pointer at the first GF resource block; and the data payload and a second pointer at the second GF resource block. The first pointer may refer to the second GF resource block, while the second pointer may refer to the first GP resource block.