A communication apparatus includes: MAC control circuitry, which, in operation, controls transmission and reception of a control frame and a data frame that are used for communication with another communication apparatus; and radio circuitry, which, in operation, performs radio communication of the control frame and the data frame using a transmission antenna and a reception antenna, wherein, when the radio circuitry receives, from the another communication apparatus, an SSW frame including an OCB response subfield among a plurality of the control frames, the MAC control circuitry determines whether to perform data communication between the communication apparatus and the another communication apparatus in accordance with the OCB response subfield.

A communication apparatus includes: MAC control circuitry, which, in operation, controls transmission and reception of a control frame and a data frame that are used for communication with another communication apparatus; and radio circuitry, which, in operation, performs radio communication of the control frame and the data frame using a transmission antenna and a reception antenna, wherein, when the radio circuitry receives, from the another communication apparatus, an SSW frame including an OCB response subfield among a plurality of the control frames, the MAC control circuitry determines whether to perform data communication between the communication apparatus and the another communication apparatus in accordance with the OCB response subfield.

A computer readable storage medium comprising a set of instructions to operate a processor, a user equipment (UE) and an integrated circuit configured to perform operations. The operations include receiving a signal broadcast by a cell of new radio (NR) network, determining whether the cell is configured for a standalone (SA) operation for NR based on the received signal, when the cell is configured for the SA operation for NR, storing a first indication locally at the UE that the cell is configured for the SA operation for NR, when the cell is not configured for the SA operation for NR, storing a second indication locally at the UE that the cell is configured for a non-standalone (NSA) operation for NR and initiating a public land mobile network (PLMN) search procedure, wherein the PLMN search procedure includes a frequency scan based on the first indication or the second indication.

Communication management hardware controls network access via generation and distribution of wireless access profiles. For example, the communication management hardware receives a network access request from first user equipment to use a network over an open SSID network. In response to detecting that the first user equipment operated by a non-subscriber is not yet authorized to use the network, such as because the first user equipment has not signed up for use of the network, the communication management hardware directs the first user equipment to a portal. The communication management hardware then communicates a wireless access profile to the first user equipment. In one arrangement, the wireless access profile is derived based on input from the first user equipment. The wireless access profile provides the first user equipment wireless access to the network via a secure SSID.

Communication management hardware controls network access via generation and distribution of wireless access profiles. For example, the communication management hardware receives a network access request from first user equipment to use a network over an open SSID network. In response to detecting that the first user equipment operated by a non-subscriber is not yet authorized to use the network, such as because the first user equipment has not signed up for use of the network, the communication management hardware directs the first user equipment to a portal. The communication management hardware then communicates a wireless access profile to the first user equipment. In one arrangement, the wireless access profile is derived based on input from the first user equipment. The wireless access profile provides the first user equipment wireless access to the network via a secure SSID.

The disclosure relates to a 5G or 6G communication system for supporting a higher data transmission rate. In some implementations, a user equipment (UE) and method to manage a rejected network slice selection assistance information (NSSAI) is disclosed. The method may include receiving, from a network, an activate default EPS bearer context request message with a Single-NSSAI (S-NSSAI) and a Public Land Mobile Network (PLMN) identifier (ID). In addition, the method may include removing the S-NSSAI from a rejected NSSAI list for a current PLMN.

The disclosure relates to a 5G or 6G communication system for supporting a higher data transmission rate. In some implementations, a user equipment (UE) and method to manage a rejected network slice selection assistance information (NSSAI) is disclosed. The method may include receiving, from a network, an activate default EPS bearer context request message with a Single-NSSAI (S-NSSAI) and a Public Land Mobile Network (PLMN) identifier (ID). In addition, the method may include removing the S-NSSAI from a rejected NSSAI list for a current PLMN.

Methods, systems, and devices are provided that allow for access to a wireless computer network, such as a home or business network, via a communal device. The communal device retrieves network access information such as a PSK and provides a machine-readable code such as a QR code or bar code that automatically provides the access information to a user's device, thereby allowing access to the network with little or no user input required.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a plurality of configurations corresponding to a plurality of physical cell identifiers (PCIs), wherein the plurality of PCIs are associated with a serving cell, and wherein the plurality of configurations are based at least in part on respective transmit receive points (TRPs) and indicate synchronization signal block configurations of the plurality of PCIs; receive information indicating an TRP, of the respective TRPs, or a PCI corresponding to the TRP; and perform a communication with the TRP based at least in part on the PCI in accordance with a configuration, of the plurality of configurations, corresponding to the PCI. Numerous other aspects are provided.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a plurality of configurations corresponding to a plurality of physical cell identifiers (PCIs), wherein the plurality of PCIs are associated with a serving cell, and wherein the plurality of configurations are based at least in part on respective transmit receive points (TRPs) and indicate synchronization signal block configurations of the plurality of PCIs; receive information indicating an TRP, of the respective TRPs, or a PCI corresponding to the TRP; and perform a communication with the TRP based at least in part on the PCI in accordance with a configuration, of the plurality of configurations, corresponding to the PCI. Numerous other aspects are provided.