An apparatus for Internet of Things (IoT) registration includes a beacon frame transmitting unit for transmitting a beacon frame to a plurality of stations, an authentication unit that receives an authentication request frame from the plurality of stations in a first method, and an association unit that transmits an authentication response frame or an association response frame to the plurality of stations in a second method.

A first base station receives an aggregate maximum bit rate of a wireless device; and an indication of packet data convergence protocol (PDCP) duplication for a bearer. Duplicated PDCP packets of the bearer are received from a PDCP layer of a second base station. The duplicated PDCP packets are transmitted to the wireless device via the bearer. An aggregate bit rate between the wireless device and the first base station is limited based on the aggregate maximum bit rate. The aggregate bit rate is determined while ignoring the duplicated PDCP packets.

A first base station receives an aggregate maximum bit rate of a wireless device; and an indication of packet data convergence protocol (PDCP) duplication for a bearer. Duplicated PDCP packets of the bearer are received from a PDCP layer of a second base station. The duplicated PDCP packets are transmitted to the wireless device via the bearer. An aggregate bit rate between the wireless device and the first base station is limited based on the aggregate maximum bit rate. The aggregate bit rate is determined while ignoring the duplicated PDCP packets.

Embodiments herein provide a method and a UE for handling of integrity check failures of Packet Data Convergence Protocol (PDCP) Protocol Data Units (PDUs) in a wireless communication system. The method includes performing an integrity check at a PDCP layer on at least one Radio Bearer based on a Message Authentication Code-Integrity (MAC-I) of the PDCP PDU. The method includes determining a success of integrity check of the PDCP PDU or a failure of integrity check of the PDCP PDU received on the radio bearer. Further, the method includes discarding the PDCP PDU for which integrity is check failed. Furthermore, the method includes indicating a Radio Resource Control (RRC) layer about the integrity check failure on the at least one radio bearer in response to determining a trigger condition.

Embodiments herein provide a method and a UE for handling of integrity check failures of Packet Data Convergence Protocol (PDCP) Protocol Data Units (PDUs) in a wireless communication system. The method includes performing an integrity check at a PDCP layer on at least one Radio Bearer based on a Message Authentication Code-Integrity (MAC-I) of the PDCP PDU. The method includes determining a success of integrity check of the PDCP PDU or a failure of integrity check of the PDCP PDU received on the radio bearer. Further, the method includes discarding the PDCP PDU for which integrity is check failed. Furthermore, the method includes indicating a Radio Resource Control (RRC) layer about the integrity check failure on the at least one radio bearer in response to determining a trigger condition.

Provided is a method for changing, by a user equipment (UE), packet data convergence protocol (PDCP) version. The method may include: receiving a security mode command message, which includes a first security algorithm configuration for a PDCP of a first system and a second security algorithm configuration for a PDCP of a second system, from a base station (BS); deriving a first security key for the PDCP of the first system, based on the first security algorithm configuration; when the security mode command message passes an integrity protection check based on the first security key, changing the PDCP version from the PDCP of the first system to the PDCP of the second system; deriving a second security key for the PDCP of the second system, based on the second security algorithm configuration; and transmitting a security mode complete message, based on the second security key, to the BS.

Provided is a method for changing, by a user equipment (UE), packet data convergence protocol (PDCP) version. The method may include: receiving a security mode command message, which includes a first security algorithm configuration for a PDCP of a first system and a second security algorithm configuration for a PDCP of a second system, from a base station (BS); deriving a first security key for the PDCP of the first system, based on the first security algorithm configuration; when the security mode command message passes an integrity protection check based on the first security key, changing the PDCP version from the PDCP of the first system to the PDCP of the second system; deriving a second security key for the PDCP of the second system, based on the second security algorithm configuration; and transmitting a security mode complete message, based on the second security key, to the BS.

A communication device determines whether a PHY data unit is to be transmitted in a first frequency band from among multiple frequency bands in which a WLAN communication protocol permits operation. The multiple frequency bands also include a second frequency band. The communication device determines whether the PHY data unit is to include a PS-Poll frame, and whether a BSS color is currently disabled for the WLAN. In response to i) determining that the PHY data unit is to be transmitted in the first frequency band, ii) determining that the PHY data unit is not to include a PS-Poll frame, and iii) determining that the BSS color is not currently disabled for the WLAN: the communication device determines that a TXOP duration subfield in a PHY preamble of the PHY data unit cannot be set to a value defined by the WLAN communication protocol for indicating a TXOP duration that is unspecified.

A communication device determines whether a PHY data unit is to be transmitted in a first frequency band from among multiple frequency bands in which a WLAN communication protocol permits operation. The multiple frequency bands also include a second frequency band. The communication device determines whether the PHY data unit is to include a PS-Poll frame, and whether a BSS color is currently disabled for the WLAN. In response to i) determining that the PHY data unit is to be transmitted in the first frequency band, ii) determining that the PHY data unit is not to include a PS-Poll frame, and iii) determining that the BSS color is not currently disabled for the WLAN: the communication device determines that a TXOP duration subfield in a PHY preamble of the PHY data unit cannot be set to a value defined by the WLAN communication protocol for indicating a TXOP duration that is unspecified.

Apparatuses, methods, and systems are disclosed for integrity protection for a packet data unit. One method includes determining a first portion of a packet data unit, wherein the packet data unit includes the first portion and a second portion. The method includes applying an integrity protection function to the first portion of the packet data unit to result in an integrity protection indicator without applying the integrity protection function to the second portion of the packet data unit. The method includes transmitting the packet data unit with the integrity protection indicator.