Abstract:
The present invention provides a method for group scheduling grant, a user equipment and a radio network controller. The method for group scheduling grant includes: reporting, by a UE, to an RNC a capability of the UE to support an uplink enhanced dedicated channel; receiving a configuration message transmitted by the RNC, where the configuration message carries an E-RNTI; where the E-RNTI carried in the configuration message includes an E-RNTI allocated to a group to which the UE belongs; monitoring, by the UE, a first channel by using the E-RNTI carried in the configuration message, and activating or deactivating an HARQ process according to an absolute grant received by the UE in the first channel. The present invention can reduce the utilization of E-AGCHs, improve the utilization efficiency of downlink code resources, and prevent the downlink throughput from being limited.
Abstract:
An apparatus, a system, and a method for obtaining a quality of service parameter of a voice over Internet Protocol (VoIP) service is presented. The apparatus obtains a quality of service parameter of a VoIP service, and the apparatus sends a quality parameter report of the VoIP service to a centralized processing device. The quality parameter report of the VoIP service includes the quality of service parameter of the VoIP service, so that a network system obtains quality of service of the VoIP service according to the quality of service parameter of the VoIP service, further helping an operator control and adjust the network system based on the quality of service of the VoIP service.
Abstract:
Embodiments of the present invention provide a paging method, apparatus, and system, so as to implement paging of UE in an area with relatively poor signal coverage. UE includes: a receiving unit, configured to receive a broadcast message sent by a base station; and a determining unit, configured to determine whether the UE is first UE where the determining unit is further configured to: in a case in which it is determined that the UE is the first UE, determine a start PF and a start PO according to the first radio frame parameter; the determining unit is further configured to determine a first subframe set according to the start PF and the start PO; and the receiving unit is further configured to receive, according to the start PF, the start PO, and the first subframe set, a paging message sent by the base station.
Abstract:
The present application provides a method for adjusting resource configuration, a radio network controller, and a base station. The method includes sending configuration information of an uplink common enhanced dedicated transport channel E-DCH resource pool to a base station, where the configuration information of an uplink common E-DCH resource pool includes information of a first resource pool to which a first transmission time interval corresponds and information of a second resource pool to which a second transmission time interval corresponds. Indication information is sent by the base station according to usage of at least one of the resource pools. Configuration of the first resource pool can be adjusted according to the indication information. In embodiments of the present application, the range of the resource pool can be dynamically adjusted in the case that a plurality of transmission time intervals coexists.
Abstract:
Embodiments provide a random access method, a device. The method includes: determining whether a first preset condition is met, where the first preset condition includes: a difference between a maximum transmit power allowed by the user equipment and a power of sending the random access code in a previous random access attempt process is less than or equal to a power ramping factor, and/or, the previous random access attempt process fails. The method also includes, if the first preset condition is met, sending the random access code by using an enhancement mode in the current random access attempt process.
Abstract:
Embodiments of the present disclosure provide a data transmission and feedback processing method and apparatus. The apparatus of the present disclosure includes: a first receiving module, configured to receive a data packet sent by a second device; an identification module, configured to identify an exception by the first device according to scheduling information corresponding to the received data packet and an SN carried in the data packet; and a feedback module, configured to determine the exception by the first device and send a feedback message to the second device, where the feedback message carries an SN, so that the second device retransmits a data packet to the first device according to the SN. The embodiments of the present disclosure resolve a problem that present uniform HARQ retransmission times cannot meet QoS requirements of different services, so that HARQ retransmission requirements for QoS of different services are met.
Abstract:
Embodiments of the present invention provide a memory allocation method and system, a user equipment, and a network device. The method includes: determining, by a user equipment (UE), a high speed downlink shared channel (HS-DSCH) physical layer category for memory allocation according to a first network configuration sent by a first network device; using the total number of soft channel bits corresponding to the determined HS-DSCH physical layer category as a total allocated memory size of a soft memory buffer, dividing the total allocated memory size of the soft memory buffer by the total number of serving or secondary serving HS-DSCH cells corresponding to the determined HS-DSCH physical layer category, and determining a soft memory buffer size of each HS-DSCH transmission channel; and allocating the soft memory buffer size of each HS-DSCH transmission channel among the HARQ processes in the first network configuration of the corresponding HS-DSCH transmission channel.
Abstract:
A user equipment is configured to receive logged minimization of drive tests (MDT) configuration information and to determine, according to the received logged MDT configuration information, a Multimedia Broadcast Multicast Service (MBMS) set used for triggering logged MDT measurement and a measurement parameter used for performing the logged MDT measurement. The user equipment is also configured to perform the logged MDT measurement based on the measurement parameter when determining that an MBMS used for triggering the logged MDT measurement is being received, where the MBMS used for triggering the logged MDT measurement belongs to the MBMS set used for triggering the logged MDT measurement, thereby implementing the logged MDT measurement.
Abstract:
In a method for measuring a service transmission status of a user equipment provided in an embodiment of the present invention, a first service station transmits a first data packet for a user equipment; the first service station determines at least one second service station that transmits a second data packet for the user equipment; and the first service station instructs the at least one second service station to measure a service transmission status of the user equipment, where the first data packet and the second data packet are different data packets of a same service of the user equipment or data packets of different services. According to this method, a service transmission status of a user equipment can be measured in a multi-station transmission scenario.
Abstract:
The present invention discloses a method and a user equipment for processing frequency information. The method for processing frequency information includes: receiving a measurement control message sent from network device, where the measurement control message contains frequency information for inter-frequency measurement without compressed mode; and clearing stored frequency information for inter-frequency measurement without compressed mode if the type of frequency information for inter-frequency measurement without compressed mode that is contained in the measurement control message is different from the type of the stored frequency information for inter-frequency measurement without compressed mode. The technical solutions disclosed in the present invention avoid a problem of measurement failure when a UE performs measurement without compressed mode on an adjacent frequency.