Abstract: The present disclosure relates to the capillary network gateway selection in a capillary network. In particular, the present disclosure relates to a methods and arrangements for selecting a capillary network gateway, CGW, for linking of a machine device, MD, arranged to operate in a capillary network, to a cellular network. The cellular network is arranged to operate according to a radio access technology different from the radio access technology of the capillary network, the capillary network including a plurality of CGWs, each of which CGWs being adapted to forward traffic between the capillary network and a radio base station, RBS, of the cellular network. The method comprises, for at least two CGWs of the plurality of CGWs, to gather (S51) data related to cells of RBSs having a cellular radio connection to the respective CGW in the capillary network, and to control (S52) selection of at least one CGW out of the at least two CGWs based on the gathered data.

Abstract: The present disclosure relates to capillary network gateway, CGW 12a, 12b, selection in a capillary network. In particular, the present disclosure relates to methods and arrangements for linking a machine device, MD 11, operating according to a local area radio access technology, RAT, in a capillary network, to a cellular network via a CGW 12a, 12b, wherein the capillary network comprises a plurality of CGWs that each have a connection to the cellular network. A plurality of MDs 11 is connected via a local area radio access technology, RAT, of the capillary network to the CGWs 12a, 12b which in turn are connected to respective radio base stations, RBSs, 21a, 21b of the cellular network. An MD 11 may be capable of setting up a link to the cellular network by means of multiple CGWs and thus a selection of CGW should be performed prior to establishing the link.

Abstract: Systems and methods for detecting a Line of Sight (LOS) in a cellular communications network are provided. In one embodiment, a network node in the cellular communications network determines whether a wireless device is within LOS of a base station. In order do so, the network node compares a Ricean factor of a wireless communications channel between the base station and the wireless device and a predetermined Ricean factor threshold for LOS detection. In addition, the network node compares a Root Mean Squared Error (RMSE) between a Rayleigh probability density function and samples of received signal strength for radio signals transmitted between the base station and the wireless device and a predetermined RMSE threshold for LOS detection. The network node then determines whether the wireless device is within LOS of the base station based on results of the comparisons.

Abstract: The disclosure relates to a method for selecting a capillary network gateway for a machine device of a capillary network, wherein the machine device is capable of being associated with at least a first and a second capillary network gateway, wherein the first capillary network gateway has a first level of availability and the second capillary network gateway has a second level of availability. The method comprises selecting, for the machine device, the first capillary network gateway for communication of a first type of data and the second capillary network gateway for communication of a second type of data. The disclosure also relates to methods in a node, to machine device, node, computer programs, and computer program codes.

Abstract: A method in a node a communication system for selecting a message box for a machine device. The communication system comprises one or more capillary networks and a wireless network, the one or more capillary networks comprising one or more machine devices and at least two capillary network gateways. The at least two capillary network gateways are capable of data exchange between the machine device, and the wireless network. The method comprises establishing, for the machine device, a first probability reflecting the probability that the machine device changes capillary network gateway between two consecutive data transmission events performed by the machine device, and selecting, based on the first probability, a message box for use by the machine device. Further described are a corresponding node, computer programs and computer program products.

Abstract: The disclosure relates to a method for selecting a capillary network gateway for a machine device of a capillary network. The capillary network gateway is capable of data exchange between the machine device and a wireless network. The method comprises: acquiring information about a respective message box capability for two or more capillary network gateways of the capillary network; and selecting, for the machine device, the capillary network gateway based on the information about the message box capability. The disclosure also relates to a corresponding node, computer program and computer program product.

Abstract: The invention relates to selecting a capillary gateway node via which a Machine Type Communication (MTC) device is to be connected to a radio access network. The network node configured to select a capillary network gateway node for connecting an MTC device to a radio access network comprises a processing unit and a memory containing instructions executable by the processing unit. The network node is operative to obtain an indication of availability of credentials of a plurality of capillary network gateway nodes being capable of connecting the MTC device to the radio access network, and to select one of the plurality of capillary network gateway nodes via which the MTC device is to be connected to the radio access network based at least in part on the availability of credentials of the plurality of capillary network gateway nodes.

Abstract: The disclosure provides for acquiring information related to a DRX configuration that is preferred by a Capillary Network Gateway (CGW) for a capillary network and selecting a DRX configuration, based on the acquired information, to be applied by a Radio Access Network (RAN) node to substantially match said preferred DRX configuration. The selected DRX configuration can be signaled to the gateway such that the gateway can adapt, or configure, its DRX configuration accordingly. Also, the selected DRX configuration is applied, or otherwise utilized, by the RAN node. This way, also the RAN node applies the DRX configuration that is preferred by the gateway for the capillary network. Hereby it is made possible to achieve a sufficient synchronization of the DRX configurations utilized by the gateway and the RAN node, respectively. Consequently, this may allow for a synchronization of the DRX configurations of the capillary network and a 3GPP network.

Abstract: Systems and methods for detecting a Line of Sight (LOS) in a cellular communications network are provided. In one embodiment, a network node in the cellular communications network determines whether a wireless device is within LOS of a base station. In order do so, the network node compares a Ricean factor of a wireless communications channel between the base station and the wireless device and a predetermined Ricean factor threshold for LOS detection. In addition, the network node compares a Root Mean Squared Error (RMSE) between a Rayleigh probability density function and samples of received signal strength for radio signals transmitted between the base station and the wireless device and a predetermined RMSE threshold for LOS detection. The network node then determines whether the wireless device is within LOS of the base station based on results of the comparisons.

Abstract: Methods of operating nodes in a mobile communication network and nodes configured to implement the same There is provided a method of operating a node in a radio access network, the method comprising obtaining (101) an indication of the service quality desired for a traffic flow between a mobile communication device and a core network; determining (103) whether an additional bearer is required between the mobile communication device and the core network based on the obtained indication; and sending (105) a message to a node in the core network to initiate a procedure to establish an additional bearer between the mobile communication device and the core network if it is determined that an additional bearer is required. A corresponding method of operating a node in a core network is also provided, along with nodes configured to implement the methods.

Abstract: A TCP Proxy node (110) for use in a communications network (100), the TCP Proxy node (110) being arranged to receive TCP Packets originating from a first node (105) in a core network in the communications network and to transmit said TCP Packets for reception by an end user (120,121, 122) in a radio access network in the communications network (100). The TCP proxy node (110) is arranged to be informed about an inactivity period during which the end user (120,121, 122) is unable to receive TCP Packets, and to schedule said transmissions of TCP Packets so that they are received by the end user (120,121, 122) outside of said inactivity period.

Abstract: Systems and methods for detecting a Line of Sight (LOS) in a cellular communications network are provided. In one embodiment, a network node in the cellular communications network determines whether a wireless device is within LOS of a base station. In order do so, the network node compares a Ricean factor of a wireless communications channel between the base station and the wireless device and a predetermined Ricean factor threshold for LOS detection. In addition, the network node compares a Root Mean Squared Error (RMSE) between a Rayleigh probability density function and samples of received signal strength for radio signals transmitted between the base station and the wireless device and a predetermined RMSE threshold for LOS detection. The network node then determines whether the wireless device is within LOS of the base station based on results of the comparisons.

Abstract: Systems and methods for detecting a Line of Sight (LOS) in a cellular communications network are provided. In one embodiment, a network node in the cellular communications network determines whether a wireless device is within LOS of a base station. In order do so, the network node compares a Ricean factor of a wireless communications channel between the base station and the wireless device and a predetermined Ricean factor threshold for LOS detection. In addition, the network node compares a Root Mean Squared Error (RMSE) between a Rayleigh probability density function and samples of received signal strength for radio signals transmitted between the base station and the wireless device and a predetermined RMSE threshold for LOS detection. The network node then determines whether the wireless device is within LOS of the base station based on results of the comparisons.

Abstract: Method performed by a network node of a serving cell. The method is for configuring a user equipment served by the serving cell with a set of values of an offset parameter for triggering handover towards a neighbor cell. The network node and the user equipment operate in a cellular network. The network node configures the user equipment with the set of values of the offset parameter, depending on an uplink-downlink traffic ratio of the user equipment. The user equipment receives from the network node the set of values of the offset parameter for triggering handover towards the neighbor cell. The user equipment uses the received set of values of the offset parameter to expand or shrink the coverage area of the one of the serving cell and the neighbor cell that is the smaller cell, depending on the uplink-downlink traffic ratio distribution of the user equipment.