Techniques, devices, and systems for implementing a Priority Data Transport Service (PDTS) are disclosed. The PDTS provides authorized devices and/or authorized users with on-demand, priority data transport (e.g., priority Internet access). For example, the PDTS allows authorized devices and/or authorized users to access the Internet, use mobile applications, and/or send and receive image data, video data, and text data in a prioritized manner, as compared to the regular (non-priority) Internet access that is provided to non-subscribers of the PDTS over commercial telecommunications networks. An authorized user may activate and deactivate the PDTS on demand. For instance, the PDTS may be activated during an emergency or crisis situation when networks may be congested, thereby providing the user with priority data transport (e.g., priority Internet access) in an emergency or crisis situation when a telecommunications network may be overloaded.

There is disclosed a node for a wireless communication system. The node may comprise a receiver for receiving a data packet, a status report and an acknowledgement (ACK), a transmitter for transmitting the packet, the status reports and the ACK and a processor for selectively operating in a first mode and a second mode, for determining a mode switching criterion.

The present disclosure relates to a data processing method. The method includes: separately establishing, by a terminal, communication connections to a first frequency band network of a router and a second frequency band network of the router; transmitting, by the terminal, data by using the first frequency band network and the second frequency band network, where the data includes uplink data and downlink data; determining, by the terminal based on a transmission status of the first frequency band network and a transmission status of the second frequency band network, to transmit the downlink data by using the second frequency band network and transmit the uplink data by using the first frequency band network; and transmitting, by the terminal, the downlink data by using the second frequency band network, and transmitting the uplink data by using the first frequency band network.

For relaying a route-discovery request in order to discover at least one route from a source node device to a destination node device in a communication network comprising other node devices able to act as relays between the source node device and the destination node device, at least one node device among said other node devices dynamically defines a waiting delay value to be applied before relaying the route-discovery request. More precisely, said at least one node device defines the waiting delay value according to a quality level of a link via which the route-discovery request was received.

For relaying a route-discovery request in order to discover at least one route from a source node device to a destination node device in a communication network comprising other node devices able to act as relays between the source node device and the destination node device, at least one node device among said other node devices dynamically defines a waiting delay value to be applied before relaying the route-discovery request. More precisely, said at least one node device defines the waiting delay value according to a quality level of a link via which the route-discovery request was received.

Methods, systems, and devices for wireless communications are described. In some examples, a base station may identify one or more communication paths to a user equipment (UE), and may determine an end-to-end signal quality for each communication path (e.g., a signal-to-noise ratio (SNR)), one or more hop SNR values for each hop of each communication path, a ratio of the hop SNR values and the end-to-end SNR of each communication path, or a combination thereof. Based on the determined SNR values, ratios, or both, the base station may select a first communication path for a first type of communications (e.g., uplink, downlink, signal type, or the like) and a second communication path for a second type of communications (e.g., uplink, downlink, signal type, or the like), and may communicate with the UE using the selected communication paths.

Methods, systems, and devices for wireless communications are described. In some examples, a base station may identify one or more communication paths to a user equipment (UE), and may determine an end-to-end signal quality for each communication path (e.g., a signal-to-noise ratio (SNR)), one or more hop SNR values for each hop of each communication path, a ratio of the hop SNR values and the end-to-end SNR of each communication path, or a combination thereof. Based on the determined SNR values, ratios, or both, the base station may select a first communication path for a first type of communications (e.g., uplink, downlink, signal type, or the like) and a second communication path for a second type of communications (e.g., uplink, downlink, signal type, or the like), and may communicate with the UE using the selected communication paths.

One embodiment of the present specification can provide a method for performing a protocol data unit (PDU) session-related procedure. The method can comprise the steps of: transmitting, to a session management function (SMF) device, a PDU session-related message including a first indication related to communication through a PC5 link; and receiving a response message from the SMF device. The response message can include: a first quality of service (QoS) rule to be used on a Uu link; a second QoS rule to be used on a PC5 link; and a path selection rule about whether data should be transmitted through the Uu link or the PC5 link.

One embodiment of the present specification can provide a method for performing a protocol data unit (PDU) session-related procedure. The method can comprise the steps of: transmitting, to a session management function (SMF) device, a PDU session-related message including a first indication related to communication through a PC5 link; and receiving a response message from the SMF device. The response message can include: a first quality of service (QoS) rule to be used on a Uu link; a second QoS rule to be used on a PC5 link; and a path selection rule about whether data should be transmitted through the Uu link or the PC5 link.

A terminal device having a relay function of relaying a signal received from a first peripheral terminal among peripheral terminals, which are other terminal devices available for direct communication with the terminal device, to a second peripheral terminal among the peripheral terminals, the terminal device including: a detection unit that detects the peripheral terminals; a storage unit that holds peripheral terminal information that is information on each of the peripheral terminals detected by the detection unit; and an information notification unit that transmits a notification message for notifying the other terminal devices of information on the terminal device, the notification message including the peripheral terminal information held by the storage unit.