Embodiments of this application provide an uplink transmission control method and an apparatus. A micro base station sends an uplink resource configuration request to a macro base station, the macro base station sends, to the micro base station, an uplink resource configuration indication that is used to allocate an uplink resource to the micro base station, and then the micro base station instructs user equipment to transmit uplink information by using the uplink resource. It can be seen that, after the macro base station allocates the uplink resource to the micro base station, the micro base station may use the uplink resource to receive the uplink information transmitted by the user equipment.

Disclosed are a paging method, apparatus, and system, used for solving the problems in the prior art of long time lapse and low paging reception reliability in terminals when using an extended DRX cycle to carry out monitoring. The method in the embodiments of this invention comprises: a terminal performs paging reception in an extended paging location within each extended paging cycle; and within at least one extended paging cycle, the terminal performs paging retransmission reception in at least one specific paging location other than the extended paging location. As the terminal performs paging reception at least twice within at least one extended paging cycle, the embodiments of the present invention may improve terminal power-saving and also ensure the time lapse and reliability of paging reception, thereby achieving the aims of assuring user experience and improving system performance.

The present disclosure discloses a data transmission method and apparatus. User equipment (UE) measures and transmits a transmission delay to a group communication service application server (GCS AS), or the GCS AS itself determines a transmission delay, so that the GCS AS may determine, according to the transmission delay, a time of sending a packet on a multicast path or a unicast path. Therefore, a problem of out of order of packets or a loss of a packet due to a transmission delay is resolved, and continuity of a communication service is maintained.

The present disclosure discloses a data transmission method and apparatus. User equipment (UE) measures and transmits a transmission delay to a group communication service application server (GCS AS), or the GCS AS itself determines a transmission delay, so that the GCS AS may determine, according to the transmission delay, a time of sending a packet on a multicast path or a unicast path. Therefore, a problem of out of order of packets or a loss of a packet due to a transmission delay is resolved, and continuity of a communication service is maintained.

Communication between a wireless base-station and a microwave reflector link are enhanced by feeding back a portion of the transmitter signal, adjusted for phase and amplitude, to cancel ambient reflection blocker signals being received at the base-station. The microwave reflector link does not utilize a transmitter gain stage, but communicates data back to the base-station in response to modulating the reflections of its antenna (e.g., in gain and/or phase). The disclosure aids in the proper amplification and processing of reflection signals from the microwave reflector link, by canceling out the blocking signals which arise as background objects reflect transmitter signal energy back to the base-station.

Communication between a wireless base-station and a microwave reflector link are enhanced by feeding back a portion of the transmitter signal, adjusted for phase and amplitude, to cancel ambient reflection blocker signals being received at the base-station. The microwave reflector link does not utilize a transmitter gain stage, but communicates data back to the base-station in response to modulating the reflections of its antenna (e.g., in gain and/or phase). The disclosure aids in the proper amplification and processing of reflection signals from the microwave reflector link, by canceling out the blocking signals which arise as background objects reflect transmitter signal energy back to the base-station.

The present disclosure relates to methods and devices for mitigating the impact from Internet attacks in a Radio Access Network, RAN (10), using Internet transport. This object is obtained by a method performed in a User Equipment, UE (13) associated with the RAN (10) using Internet transport. The method comprises receiving from at least a network node (11, 12, 21, 22, 23) in the RAN (10), information associated with an Internet attack. Obtaining, based on the information, a mitigation action, the mitigation action mitigating the impact of the attack on the RAN service. The method further comprises to perform the obtained mitigation action to mitigate the impact on the RAN service level.

A method and system for controlling apportionment of uplink data flow of a UE having a first connection with a first access node and a second connection with a second access node. An example system could operate to determine an uplink data apportionment, defining what portion of the uplink data flow the UE should provide on the first connection versus what portion of the uplink data flow the UE should provide on the second connection, where determining the uplink data apportionment is based on (i) a comparison of uplink power headroom of the UE on the first connection with uplink power headroom of the UE on the second connection and/or (ii) a comparison of uplink noise on the first connection with uplink noise on the second connection. Further, the example system could then cause the UE to operate in accordance with the determined uplink data apportionment.

The present disclosure provides a method to provide signaling support in a hotspot area or a crowded occasion, so as to reduce costs of deploying, by the telecommunications operators, base stations and backhauls. A specific implementation method is: receiving, by a high frequency base station, measurement information sent by low and medium frequency base stations of multiple telecommunications operators or measurement reports sent by first user equipments of multiple telecommunications operators, where the high frequency base station works in a high frequency band, the low and medium frequency base stations work in a low and medium frequency band, and the first user equipments are served by the high frequency base station; allocating, by the high frequency base station, multiple component carriers comprised in high frequency resources to the low and medium frequency base stations according to the measurement information, to obtain an allocation result.

The present disclosure provides a method to provide signaling support in a hotspot area or a crowded occasion, so as to reduce costs of deploying, by the telecommunications operators, base stations and backhauls. A specific implementation method is: receiving, by a high frequency base station, measurement information sent by low and medium frequency base stations of multiple telecommunications operators or measurement reports sent by first user equipments of multiple telecommunications operators, where the high frequency base station works in a high frequency band, the low and medium frequency base stations work in a low and medium frequency band, and the first user equipments are served by the high frequency base station; allocating, by the high frequency base station, multiple component carriers comprised in high frequency resources to the low and medium frequency base stations according to the measurement information, to obtain an allocation result.