Abstract: A method of receipt status reporting in a communication device (110), comprising configuring (S1) said communication device for periodic receipt status reporting by associating a first status report type with a value of a first reporting periodicity parameter and associating a second status report type with a value of second reporting periodicity parameter, said first status report type being different from said second status report type and said first reporting periodicity parameter being different from said second reporting periodicity parameter, and periodically (S2) sending receipt status reports of said first type according to said associated value of said first reporting periodicity parameter and receipt status reports of said second type according to said associated value of said second reporting periodicity parameter.

Abstract: The present disclosure generally relates to the field of data delivery. More specifically, the present disclosure relates to a technique of supporting delivery of data packets using Transmission Control Protocol (TCP) in a wireless communication network. A method embodiment comprises identifying (S202), by a base station of the wireless communication network, an imminent end of a slow start phase of TCP congestion control. The method further comprises adapting (S204) a characteristic of the delivery of the data packets in the wireless communication network, if the imminent end of the slow start phase is identified.

Abstract: In an aspect, a UE operating in a network that supports dual connectivity operation is configured to minimize the transmission of unnecessary UE failure indications. The UE detects secondary cell group (SCG) failure for the UE, in response to detecting one of a plurality of SCG failure-triggering events. The UE sends a UE failure indication message, in response to the detecting SCG failure, and refrains from sending further UE failure indication messages in response to SCG failure-triggering events, until the sending of further UE failure indication messages is reenabled. In some cases, the UE sets a state of the UE to a UE prohibit state to prohibit sending further UE failure indication messages while in the UE prohibit state. In other cases, the UE starts a prohibit timer to prohibit sending further UE failure indication messages during the prohibit timer.

Abstract: According to some embodiments, a wireless device operating in dual connectivity with a first and second network node performs a method comprising establishing an uplink radio connection from the wireless device to the first and second network nodes. The wireless device comprises first MAC and RLC modules for uplink radio communication with the first network node, second MAC and RLC modules for uplink radio communication with the second network node, and a PDCP module for communicating with the first and second RLC modules. The method further comprises communicating data for uplink transmission from the PDCP module to the first RLC module; obtaining an indication to switch transmission of uplink data from the first network node to the second network node; resetting the first RLC module and the first MAC module; and communicating data for uplink transmission from the PDCP module to the second RLC module.

Abstract: A method in a network node is disclosed. The method comprises sending one or more packet data convergence protocol (PDCP) packet data units (PDUs) to a second network node on an internode interface, each of the one or more PDUs having an associated PDCP sequence number and an associated internode interface specific sequence number, the internode interface specific sequence numbers assigned by the network node. The method further comprises receiving feedback from the second network node.

Abstract: Techniques and apparatus for handling changes in wireless local-area network access point, WLAN AP, in an aggregation scenario are disclosed. An example method is performed in a first access node (30) in a wireless network, where the first access node (30) is serving a user equipment, UE, (40) for which communications between the UE (40) and a first WLAN AP are aggregated with communications between the UE (40) and the first access node (30), in cooperation with a first wireless termination (WT) that controls the first WLAN AP. The example method comprises: determining that communications between the UE (40) and the first WLAN AP should be replaced with communications between the UE (40) and the second WLAN AP; determining that the second WLAN AP is controlled by the first WT; and sending a reconfiguration message to the first WT, the reconfiguration message comprising an identifier of the second WLAN AP.

Abstract: Control of channel reference signal transmission in a cellular network A communication device (10) checks whether data (110) is available in an uplink data buffer of the communication device (10) for uplink transmission employing uplink radio resources (560-1), the uplink radio resources (560-1) being previously allocated to the communication device (10) in reoccurring time intervals. Depending on said checking, the UE (10) controls the transmission of a channel reference signal (502).

Abstract: A node (100) of a cellular network sends an uplink grant (803) to a communication device (10). The uplink grant indicates uplink radio resources allocated to the communication device (10) in reoccurring time intervals. In response to detecting a need for an uplink retransmission (814) by a further communication device (10?) on at least a part of the allocated uplink radio resources in a certain one of the time intervals, the node (100) sends control information (808) to the communication device (10). The control information (808) temporarily disables utilization of at least this part of the allocated uplink radio resources in at least this certain time interval by the communication device (10).

Abstract: A technique for operating a movable radio base station, M-RBS, (200) is described. The M-RBS is configured to provide to a plurality of user equipments (120) wireless access to a telecommunications network (100). As to a method aspect of the technique, the M-RBS (200) is changed from a first mode to a second mode that is different from the first mode. Each of the first mode and the second mode specifies a set of parameter values for operating parameters of the M-RBS (200).

Abstract: A method performed by a wireless communications device for measurement reporting associated with a first wireless communications network to a network node operating in a second wireless communications network. The first and second wireless communications networks operate according to different RATs. The wireless communications device receives an indication of one or more radio access network nodes operating in the first wireless communications network, among which one or more radio access network nodes a mobility of the wireless communications device is restricted. The wireless communications device further determines which radio access network nodes operating in the first wireless communications network are to be used for measurement reporting to the network node, based on the indication of the one or more radio access network nodes among which the mobility of the wireless communications device is restricted in the first wireless communications network.

Abstract: According to an exemplary embodiment, there is provided a method of operating a terminal device, the terminal device being configured to communicate with a first network operating according to a first radio access technology, RAT, and network nodes operating according to a second RAT, wherein the terminal device has a mobility set comprising identifiers for one or more network nodes operating according to the second RAT that can be used for access network selection, traffic steering and/or traffic aggregation, the method comprising on occurrence of a failure condition with respect to a connection to one or more network nodes operating according to the second RAT having an identifier in the mobility set, sending a failure indication message to the first network to signal the occurrence of the failure condition to the first network.

Abstract: A method of operating a terminal device, the terminal device being capable of access network selection, traffic steering and/or traffic aggregation through a network node in a first network operating according to a first radio access technology, RAT, and a network node operating according to a second RAT, the method comprising storing a set of identifiers of network nodes operating according to the second RAT that can be used for access network selection, traffic steering and/or traffic aggregation; receiving an update signal, the update signal indicating one or more identifiers of network nodes operating according to the second RAT that are to be added to and/or removed from the stored set of identifiers; updating the stored set of identifiers based on the update signal; and performing an action using the updated set of identifiers.

Abstract: Uplink based selection of downlink connectivity configuration A node (110, 120) of a cellular network determines a characteristic of at least one UL channel (112, 122) between a device (10) and the cellular network. Depending on the determined characteristic of the at least one uplink channel (112, 114), the node (110, 120) selects a configuration for a downlink connection for the device (10), e.g., a dual connectivity configuration or a carrier aggregation configuration. Further, the node (110) indicates the selected configuration to the device (10).

Abstract: A communication device (10) detects a need to transmit data to an access node (100) of a cellular network. In response to detecting this need, the communication device (10) performs a selection between a scheduled transmission of the data to the access node (100) and an unscheduled transmission of the data to the access node (100). In case of the scheduled transmission, the communication device (10) requests allocation of radio resources by the cellular network, in response to this requesting, receives an indication of allocated radio resources from the cellular network, and performs a radio transmission on the allocated radio resources to send the data to the access node (100). In case of the unscheduled transmission, the communication device (10) performs a radio transmission on further radio resources to send the data to the access node (100), without requesting allocation of radio resources by the cellular network.

Abstract: A system, methods, apparatuses, and computer programs for providing coverage of a wireless communication network are described. The wireless communication network comprises radio base stations (150) mounted on mobile robots (100) and the mobile robots (100) are capable of communicating with a maintenance base (110). The method comprises to determine a radio coverage area (140) to be provided by the base stations mounted on said mobile robots (100). The method further comprises to deploy said mobile robots (100) at geographical positions suitable to provide the radio coverage area (140) and the maintenance base (110) replacing a deployed mobile robot (100) in order to maintain the radio coverage area (140).

Abstract: The present invention relates to base stations, methods in a base station, terminals and methods in a terminal for supporting a handover. The invention further relates to computer programs for implementing, in the respective nodes of a wireless network, functionality for supporting a handover. According to one embodiment, a method in a source base station for supporting a handover of a terminal from the source base station to a target base station is provided. The method includes sending to an assisting base station a request for assisting the handover, and communicating handover control information between the terminal and the source base station via the assisting base station.

Abstract: A method in a configuration node of a cellular network for selecting, from a set of channels of at least one primary system, at least one channel for allocation to base stations of the cellular network is provided. The method comprises the steps: Receiving, from a database, a set of channels of the at least one primary system; Observing a quality ranking of the channels of the received set of channels; Determining an optimal number of channels for the cellular network on the basis of the ranked set of channels such that a signal quality in the cellular network is optimized; and Selecting from the received set of channels on the basis of the quality ranking and the determined optimal number of channels, at least one channel for allocation to base stations of the cellular network. A corresponding configuration node is also provided.

Abstract: An interference-based metric is used for control purposes in a cellular network, e.g., for controlling association of a user equipment to a cell of the cellular network. The metric is defined as a ratio of a first value and a second value. The first value represents the strength of a reference signal (RS) transmitted by a base station of the cell as measured by the user equipment. The second value represents the strength of interference (IF) at the user equipment. Depending on the metric, a radio access configuration for the user equipment and the cell is controlled. This may for example involve association of the user equipment to the cell, e.g., in the course of a handover process or idle mode cell selection process.

Abstract: Methods, nodes, a wireless communication device and computer programs to be usable in association with controlling transmission of at least one data unit via a first link between a first access node and a wireless communication device and via a second link between the first access node and the wireless communication device via the second access node are described. In one embodiment, the method may be performed by the first access node and may comprise receiving first transmission delay information indicative of a transmission delay of the first link and/or second transmission delay information indicative of the second link, and controlling the transmission of said data unit based on the first and/or second transmission delay information.

Abstract: In an aspect, a UE operating in a network that supports dual connectivity operation is configured to minimize the transmission of unnecessary UE failure indications. The UE detects secondary cell group (SCG) failure for the UE, in response to detecting one of a plurality of SCG failure-triggering events. The UE sends a UE failure indication message, in response to the detecting SCG failure, and refrains from sending further UE failure indication messages in response to SCG failure-triggering events, until the sending of further UE failure indication messages is reenabled. In some cases, the UE sets a state of the UE to a UE prohibit state to prohibit sending further UE failure indication messages while in the UE prohibit state. In other cases, the UE starts a prohibit timer to prohibit sending further UE failure indication messages during the prohibit timer.