Disclosed are a signaling optimization method and device, to resolve a problem of heavy signaling overheads and long data transmission delay when a user equipment (UE) accesses a network side. The method includes: receiving, by the UE, configuration information sent by a first network side device, where the configuration information includes a list, and the list is a cell list or a base station list; and entering, by the UE, an intermediate state according to the configuration information, where the intermediate state means that: when the UE stores context information of the UE, if the UE moves and a cell movement range falls within a coverage area of a cell or a base station included in the list, the UE performs cell reselection according to the list. Embodiments of the present disclosure are applicable to optimization of signaling transmission between the UE and a network side.

A multimedia communications system for broadcast distribution of multimedia content to mobile terminals over a cellular network is disclosed. The disclosed system accesses content providers, receives corresponding content information associated with provider content, and broadcasts content information to user terminals. The user terminals include software and/or hardware for receiving the content information and enabling a user to subscribe to one or more content items. Once a subscription is in place for one or more content items, corresponding content IDs are sent to and stored at the terminal. The system facilitates broadcast of the content. Content IDs stored in the terminal and broadcasted content IDs are compared. Only the content associated with the matching content IDs is then downloaded to the user terminal for storage and/or presentation. Content associated with unmatched content IDs is prevented from being received.

A multimedia communications system for broadcast distribution of multimedia content to mobile terminals over a cellular network is disclosed. The disclosed system accesses content providers, receives corresponding content information associated with provider content, and broadcasts content information to user terminals. The user terminals include software and/or hardware for receiving the content information and enabling a user to subscribe to one or more content items. Once a subscription is in place for one or more content items, corresponding content IDs are sent to and stored at the terminal. The system facilitates broadcast of the content. Content IDs stored in the terminal and broadcasted content IDs are compared. Only the content associated with the matching content IDs is then downloaded to the user terminal for storage and/or presentation. Content associated with unmatched content IDs is prevented from being received.

In embodiments, apparatuses, methods, and storage media may be described for identifying subframes in a radio frame on which a UE may receive a Physical Downlink Control Channel (PDCCH) or enhanced PDCCH (ePDCCH) transmission. Specifically, the UE may receive multiple indications of uplink/downlink (UL/DL) subframe configurations and identify one or more subframes in which the UE may receive the PDCCH or ePDCCH transmission. The UE may then monitor one or more of the identified subframes and base discontinuous reception (DRX) timer functionality on one or more of the identified subframes.

In embodiments, apparatuses, methods, and storage media may be described for identifying subframes in a radio frame on which a UE may receive a Physical Downlink Control Channel (PDCCH) or enhanced PDCCH (ePDCCH) transmission. Specifically, the UE may receive multiple indications of uplink/downlink (UL/DL) subframe configurations and identify one or more subframes in which the UE may receive the PDCCH or ePDCCH transmission. The UE may then monitor one or more of the identified subframes and base discontinuous reception (DRX) timer functionality on one or more of the identified subframes.

Apparatus and methods are provided for handover robustness. In novel aspect, the UE receives a conditional handover (CHO) command from a source gNB containing a set of candidate cells with corresponding triggering conditions; detects a handover conditions for a target gNB belonging to the set of candidate cells; and performs HO procedure towards the target gNB. In one embodiment, the conditional HO command further configures a validity timer that controls a validity of handover conditions for the set of candidate cells. The validity timer is started upon receiving the conditional HO command, the validity timer is stopped upon detecting at least one events comprising a handover condition is met and a normal handover command is received, and the conditional HO command is set to be invalid upon the expiration of the validity timer.

Apparatus and methods are provided for handover robustness. In novel aspect, the UE receives a conditional handover (CHO) command from a source gNB containing a set of candidate cells with corresponding triggering conditions; detects a handover conditions for a target gNB belonging to the set of candidate cells; and performs HO procedure towards the target gNB. In one embodiment, the conditional HO command further configures a validity timer that controls a validity of handover conditions for the set of candidate cells. The validity timer is started upon receiving the conditional HO command, the validity timer is stopped upon detecting at least one events comprising a handover condition is met and a normal handover command is received, and the conditional HO command is set to be invalid upon the expiration of the validity timer.

A first wireless device is served with an access node. The access node has a first coverage area. A second wireless device is served with a sub-cell access node. The sub-cell access node has a second coverage area that is contained within the access node coverage area. Based on the determination to reduce the load on the sub-cell access node, a handover of a wireless device from the sub-cell access node to the access node is caused by reducing the transmit power used by the sub-cell access node. Based on a comparison of a first signal quality indicator associated with a first sub-cell access node to a second signal quality indicator associated with a second sub-cell access node, a transmit power from the first access node is reduced.

Embodiments are presented herein of techniques for a mobile device to control timing of inter-RAT handovers. In some embodiments, an apparatus includes one or more processing elements configured to execute an interactive wireless communication application using a wireless communication configuration between the apparatus and a communications network for a first RAT. In some embodiments, the wireless communication configuration does not have a QoS guarantee. In some embodiments, the apparatus is configured to store information from the communications network that specifies one or more wireless thresholds relating to handover from the first RAT to a second RAT. In some embodiments, based on executing the application and current wireless conditions, the apparatus is configured to send a report to a base station of the communications network, prior to at least one of the thresholds being met, to trigger a handover from the first RAT to the second RAT.

Small base station, micro, femto or pico BTS (PBS) are connected via Un interface to a donor eNB DeNB. In case of a handover from that PBS packets that had not been acknowledged by a UE need to be forwarded to the target base station. Forwarding them via Un and DeNB to the target eNB causes latency and wast radio resources on Un. Thus, the DeNB uses information about the handover to buffer packets and, after being informed by PBS, forward those packets that had not been acknowledged by the UE. This procedure, therefore, saves resources on Un interface and reduces latency. No forwarding of those packets from PBS to DeNB is required. There is provided a method for forwarding data to a wireless terminal. The method is performed by a proxy node. The method comprises receiving data on a link between a core network and a backhaul hub node. The data is addressed to a wireless terminal served by, or handed over from, a serving network node. The method comprises receiving a first indication to forward the data to a target network node of the wireless terminal. The method comprises forwarding the data towards the target network node in response thereto. There is also provided a computer program for such a method and a proxy node configured to perform such a method.