An information sending method includes sending, by a network device, a first message. The first message includes first information. The first information is useable to indicate to a terminal device to send second information on one or more first resources. The first message is a first broadcast message or a paging message. The information sending method further includes receiving, by the network device, the second information on the one or more first resources.

An information sending method includes sending, by a network device, a first message. The first message includes first information. The first information is useable to indicate to a terminal device to send second information on one or more first resources. The first message is a first broadcast message or a paging message. The information sending method further includes receiving, by the network device, the second information on the one or more first resources.

Methods, systems, and devices for wireless communications are described. A wireless device, such as a user equipment (UE), may receive a message that includes downlink control information (DCI) pertaining to system information that is scheduled to be received from a base station. The UE may determine, based at least in part on the message, whether the system information that is scheduled is remaining minimum system information (RMSI) or is other system information (OSI), and searching a downlink bandwidth part for the scheduled RMSI or OSI determined from the message. The described techniques may serve to resolve ambiguity between RMSI and OSI, for instance, when scheduled in the same control region and having overlapping search spaces.

Methods, systems, and devices for wireless communications are described. A wireless device, such as a user equipment (UE), may receive a message that includes downlink control information (DCI) pertaining to system information that is scheduled to be received from a base station. The UE may determine, based at least in part on the message, whether the system information that is scheduled is remaining minimum system information (RMSI) or is other system information (OSI), and searching a downlink bandwidth part for the scheduled RMSI or OSI determined from the message. The described techniques may serve to resolve ambiguity between RMSI and OSI, for instance, when scheduled in the same control region and having overlapping search spaces.

This disclosure provides systems, methods and apparatuses for advertising discovery information of an AP in one or more downlink (DL) transmissions. In some implementations, the AP may allocate a dedicated resource unit (RU) for advertising discovery information of the AP to stations not associated with the AP, and may allocate one or more additional RUs for DL transmissions to one or more stations associated with the AP. The AP may transmit a multi-user (MU) packet containing discovery information intended for the unassociated stations and containing non-discovery-related information intended for the one or more associated stations. The discovery information may be transmitted on the dedicated RU, and the non-discovery-related information may be transmitted on the one or more additional RUs.

This disclosure provides systems, methods and apparatuses for advertising discovery information of an AP in one or more downlink (DL) transmissions. In some implementations, the AP may allocate a dedicated resource unit (RU) for advertising discovery information of the AP to stations not associated with the AP, and may allocate one or more additional RUs for DL transmissions to one or more stations associated with the AP. The AP may transmit a multi-user (MU) packet containing discovery information intended for the unassociated stations and containing non-discovery-related information intended for the one or more associated stations. The discovery information may be transmitted on the dedicated RU, and the non-discovery-related information may be transmitted on the one or more additional RUs.

Methods, systems, and devices for wireless communications are described. Interference between random access channel (RACH) transmissions and Industrial Internet of Things (IIoT) transmissions may be avoided with a RACH occasion forbidden mask and a dynamic indication of availability of downlink retransmission resources. A user equipment (UE) may receive an indication of a RACH configuration and a forbidden mask associated with the RACH configuration. The UE may identify, from a set of random access occasions indicated by the RACH configuration, a subset of allowed random access occasions based on the forbidden mask. The UE may transmit a random access message during at least one allowed random access occasion of the subset. Additionally or alternatively, a base station may determine whether one or more transmissions on a component carrier (CC) were successful, and transmit downlink control information (DCI) indicating whether a set of random access occasions are available on the CC.

Methods, systems, and devices for wireless communications are described. Interference between random access channel (RACH) transmissions and Industrial Internet of Things (IIoT) transmissions may be avoided with a RACH occasion forbidden mask and a dynamic indication of availability of downlink retransmission resources. A user equipment (UE) may receive an indication of a RACH configuration and a forbidden mask associated with the RACH configuration. The UE may identify, from a set of random access occasions indicated by the RACH configuration, a subset of allowed random access occasions based on the forbidden mask. The UE may transmit a random access message during at least one allowed random access occasion of the subset. Additionally or alternatively, a base station may determine whether one or more transmissions on a component carrier (CC) were successful, and transmit downlink control information (DCI) indicating whether a set of random access occasions are available on the CC.

A wireless communication apparatus which can simultaneously conduct communication on at least two frequency channels is described. The apparatus includes a communication unit which refers to a connection management table to determine a communication system which can be used by a wireless communication terminal using an identifier of the wireless communication terminal, and conducts communication with the wireless communication terminal on a second frequency channel using the communication system, when a request from the wireless communication terminal to change the first frequency channel to the second frequency channel is permitted.

A wireless communications device is configured to act as a remote node of a wireless access network by selecting, when the wireless communications device is in an idle mode in which it has not established a connection to the wireless communications network, an infrastructure equipment forming part of the radio access network of the wireless communications network to provide a network interface with a core network part of the wireless communications network via the selected infrastructure equipment.