The present invention relates to a wireless communication system. More specifically, the present invention relates to a method and a device for re-ordering a PDCP PDU in a dual connectivity system, the method comprising: configuring a radio bearer having one PDCP (Packet Data Convergence Protocol) entity and two RLC (Radio Link Control) enti-ties, wherein the PDCP entity enables a reordering function for PDCP PDUs (Protocol Data Unit) stored in a PDCP buffer; reconfiguring the radio bearer from having two RLC entities to having one RLC entity so that a first RLC entity is released; keeping the reordering func-tion enabled for the PDCP PDUs stored in the PDCP buffer if there is at least one PDCP PDU in the PDCP buffer after releasing the first RLC entity; and disabling the reordering function when the PDCP buffer becomes empty.

Example embodiments describe a transmitter including data encapsulation circuitry configured to encapsulate data packets into Data Transport Units, DTUs, for further transmission over a communication medium. The data packets have respective Quality of Service, QoS, tolerances. The data encapsulation circuitry is configured to delay transmission of first data packets with a lower QoS tolerance and to group the first data packets in a subset of DTUs available for transportation of the first data packets.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a receiver device may receive a management frame addressed to the receiver device; parse the management frame to identify a link identifier included in the management frame; associate the link identifier with link information included in the management frame; and update, based at least in part on the link information, a communication configuration for a link identified by the link identifier. Numerous other aspects are provided.

A communication method between a source device and a target device utilizes speculative connection setup between the source device and the target device, target-device-side packet ordering, and fine-grained ordering to remove packet dependencies.

Provided are systems and methods for reliable, out-of-order transmission of packets. In some implementations, provided is an apparatus configured to communicate with a network and a host device. The apparatus may receive messages from the host device at a send queue, where each message includes destination information. The apparatus may further determine, using the destination information and an identify of the send queue, a transport context associated with a destination on the network. The apparatus may further, for each message and using the transport context, generate a packet including the message and transmit the packet over the network. The apparatus may further monitor status for each transmitted packet.

A technique for managing real-time communications includes generating, during a communication session between at least a first computing device and a second computing device over a computer network, multiple audio factors of the communication session, each of the audio factors being susceptible to degradation in a way that affects audio quality of the communication session. The technique further includes combining the audio factors to produce an overall measure of audio quality and taking remedial action to improve the overall measure of audio quality by adjusting a setting on the first computing device.

A network interface device, an electronic device including same, and a method of operating same are provided. The network interface device is coupled to a host including a storage circuit. The network interface device includes a processing circuit and a packet receiving circuit which is used for receiving multiple network packets. The processing circuit performs the following steps: parsing the network packets to obtain multiple sequence numbers of the network packets; reordering the network packets based on the sequence numbers to generate reorder information; appending the reorder information to one of the network packets and generating packet order information, or generating the packet order information containing the reorder information; storing the packet order information in the storage circuit; and issuing an interrupt to the host. The packet receiving circuit or the processing circuit stores the network packets in the storage circuit before the processing circuit issues the interrupt.

Provided are systems and methods for reliable, out-of-order transmission of packets. In some implementations, provided is an apparatus configured to communicate with a network and a host device. The apparatus may receive out-of-order packets from a remote device. The apparatus may transmit selective-acknowledgements to the remote device such that remote device can retransmit certain packets. The out-of-order packets can be provided to software for re-ordering.

A network device may receive a request to connect to a network from a user equipment device and perform a first admission control procedure to determine whether to temporarily allow the user equipment device to connect to the network. The network device may receive information identifying a slice associated with the user equipment device in response to determining to temporarily allow the user equipment device to connect to the network. The network device may perform a second admission control procedure to determine whether to allow the user equipment device to connect to the network. The second admission control procedure is based on the slice associated with the user equipment device. The network device may allocate network resources to the user equipment device in response to determining to allow the user equipment device to connect to the network.

A network interface device, an electronic device including same, and a method of operating same are provided. The network interface device is coupled to a host including a storage circuit. The network interface device includes a processing circuit and a packet receiving circuit which is used for receiving multiple network packets. The processing circuit performs the following steps: parsing the network packets to obtain multiple sequence numbers of the network packets; reordering the network packets based on the sequence numbers to generate reorder information; appending the reorder information to one of the network packets and generating packet order information, or generating the packet order information containing the reorder information; storing the packet order information in the storage circuit; and issuing an interrupt to the host. The packet receiving circuit or the processing circuit stores the network packets in the storage circuit before the processing circuit issues the interrupt.