Apparatuses, methods, and systems are disclosed for power control using at least one power control parameter. One method (1600) includes receiving (1602), at a first device, a set of uplink power control parameters. The method (1600) includes determining (1604) a downlink transmit power value based on the set of uplink power control parameters. The method (1600) includes transmitting (1606) a downlink reference signal to a second device, wherein a transmit power of the downlink reference signal is set to the downlink transmit power value.

Apparatuses, methods, and systems are disclosed for power control using at least one power control parameter. One method (1600) includes receiving (1602), at a first device, a set of uplink power control parameters. The method (1600) includes determining (1604) a downlink transmit power value based on the set of uplink power control parameters. The method (1600) includes transmitting (1606) a downlink reference signal to a second device, wherein a transmit power of the downlink reference signal is set to the downlink transmit power value.

Apparatuses, methods, and systems are disclosed for power control using at least one power control parameter. One method (1600) includes receiving (1602), at a first device, configuration information comprising a power offset value associated with a first plurality of resources and a first reference signal. The method (1600) includes receiving (1604) the first reference signal from a second device. The method (1600) includes performing (1606) a first measurement on the first reference signal. The method (1600) includes calculating (1608) a first expected receive power value based on the first measurement and the power offset value. The method (1600) includes calculating (1610) a first target receive power value. The method (1600) includes transmitting (1612) at least one downlink power control parameter to the second device based on the first target receive power value and the first expected receive power value.

Aspects of the present disclosure provide techniques for addressing scenarios where the minimum transmit power supported by an Integrated Access and Backhaul (IAB) node is above a minimum value specified by a standard. In some cases, the IAB node may signal information regarding its power configuration so a network entity of the IAB may take it into account (e.g., when allocating or scheduling resources). The power configuration may include an indication of the minimum transmit power supported by the IAB node and/or an indication of a guard band that may help the IAB node control adjacent channel leakage.

Disclosed are techniques for wireless communication. In an aspect, a base station may determine a transmit power to be used by a downstream node or an amplification gain to be used by the downstream node when relaying or repeating messages to a target node. The base station may transmit, to the downstream node, a message intended for the target node, the message having an indicated transmit power, wherein the message intended for the target node is transmitted by the base station using an actual transmit power. In some aspects, the indicated transmit power is the transmit power to be used by the downstream node, so that when the message intended for the target node is repeated by the downstream node, the indicated transmit power of the repeated message matches the actual transmit power of the repeated message.

A method and apparatus for power control for distributed wireless communication is disclosed including one or more power control loops associated with a wireless transmit/receive unit (WTRU). Each power control loop may include open loop power control or closed loop power control. A multi-phase power control method is also disclosed with each phase representing a different time interval and a WTRU sends transmissions at different power levels to different set of node-Bs or relay stations during different phases to optimize communications.

A method and apparatus for power control for distributed wireless communication is disclosed including one or more power control loops associated with a wireless transmit/receive unit (WTRU). Each power control loop may include open loop power control or closed loop power control. A multi-phase power control method is also disclosed with each phase representing a different time interval and a WTRU sends transmissions at different power levels to different set of node-Bs or relay stations during different phases to optimize communications.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a repeater may transmit, via a first interface, information associated with a capability of the repeater to provide a wideband signal on a second interface. The repeater may receive via the first interface, a configuration for transmitting the wideband signal on the second interface, and may transmit the wideband signal on the second interface based at least in part on the configuration. Numerous other aspects are provided.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a repeater may transmit, via a first interface, information associated with a capability of the repeater to provide a wideband signal on a second interface. The repeater may receive via the first interface, a configuration for transmitting the wideband signal on the second interface, and may transmit the wideband signal on the second interface based at least in part on the configuration. Numerous other aspects are provided.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a wireless node may select a communication configuration for use with a repeater wireless node that is using a power detection procedure; and transmit a signal, to the repeater wireless node and to be forwarded by the repeater wireless node to a target wireless node, in accordance with the communication configuration selected for use with the repeater wireless node that is using the power detection procedure. Numerous other aspects are described.