Abstract: A method for deploying a policy from a 3GPP core network to a non-3GPP access network. The policy relates to a connection established from a mobile terminal to the 3GPP core network via the non-3GPP access network. A local IP address acquired by the mobile terminal during establishment of the connection is received at the 3GPP core network. At the 3GPP core network, establishment of a policy control session is initiated from the 3GPP core network to the non-3GPP access network. The received local IP address is used to determine the non-3GPP access network used for the connection with reference to shared IP addressing information. At the 3GPP core network, the policy is provided to the non-3GPP access network using the policy control session established as a result of the policy control session initiation step. The policy is for deployment in the non-3GPP access network in relation to the established connection.

Abstract: A method for operating a group of nodes in a system for agile computing comprising a coordinator node and a first computation node communicating via a connection, and wherein the first computation node is adapted to perform a task for the coordinator node is provided. The method comprises the steps of: monitoring at least one operating parameter indicating the quality of the connection between the two nodes; determining a quality parameter based on the operating parameter, wherein the quality parameter indicates the quality of the connection between the two nodes; and transferring information from the first computation node to the coordinator node, when the value of the quality parameter falls within a transfer interval, wherein the information comprises information about a part of a task performed by the first computation node.

Abstract: A mobile terminal including a position detection unit that detects a current position of the mobile terminal; a communication interface that transmits the detected current position to a server, and receives, from the server, a plurality of tags corresponding to services provided in an area surrounding the current position of the mobile terminal; a status detection unit that detects a current status of the mobile terminal; a tag determination unit that determines a tag corresponding to the current status of the mobile terminal; a tag comparison unit that determines at least one recommended service by comparing the tag corresponding to the current status of the mobile terminal with each of the plurality of tags corresponding to services provided in an area surrounding the current position of the mobile terminal; and a display that displays information corresponding to the at least one recommended service determined by the tag comparison unit.

Abstract: A method for operating a group of nodes in a system for agile computing comprising a coordinator node and a first computation node communicating via a connection, and wherein the first computation node is adapted to perform a task for the coordinator node is provided. The method comprises the steps of: monitoring at least one operating parameter indicating the quality of the connection between the two nodes; determining a quality parameter based on the operating parameter, wherein the quality parameter indicates the quality of the connection between the two nodes; and transferring information from the first computation node to the coordinator node, when the value of the quality parameter falls within a transfer interval, wherein the information comprises information about a part of a task performed by the first computation node.

Abstract: A method for deploying a policy from a 3GPP core network to a non-3GPP access network. The policy relates to a connection established from a mobile terminal to the 3GPP core network via the non-3GPP access network. A local IP address acquired by the mobile terminal during establishment of the connection is received at the 3GPP core network. At the 3GPP core network, establishment of a policy control session is initiated from the 3GPP core network to the non-3GPP access network. The received local IP address is used to determine the non-3GPP access network used for the connection with reference to shared IP addressing information. At the 3GPP core network, the policy is provided to the non-3GPP access network using the policy control session established as a result of the policy control session initiation step. The policy is for deployment in the non-3GPP access network in relation to the established connection.

Abstract: A mobile terminal including a position detection unit that detects a current position of the mobile terminal; a communication interface that transmits the detected current position to a server, and receives, from the server, a plurality of tags corresponding to services provided in an area surrounding the current position of the mobile terminal; a status detection unit that detects a current status of the mobile terminal; a tag determination unit that determines a tag corresponding to the current status of the mobile terminal; a tag comparison unit that determines at least one recommended service by comparing the tag corresponding to the current status of the mobile terminal with each of the plurality of tags corresponding to services provided in an area surrounding the current position of the mobile terminal; and a display that displays information corresponding to the at least one recommended service determined by the tag comparison unit.

Abstract: It is an object of the present invention to bring some automatism into the configuration process of access network nodes in communications networks. This object is achieved by a method for configuring an access network node in a communications network comprising a first access network node and at least a second access network node, which method comprises the steps of:—receiving configuration information from said at least second access network node in said first access network node, and—configuring said first access network node with configuration parameter settings based on said transferred configuration information.

Abstract: A method for operating a group of nodes in a system for agile computing comprising a coordinator node and a first computation node communicating via a connection, and wherein the first computation node is adapted to perform a task for the coordinator node is provided. The method comprises the steps of: monitoring at least one operating parameter indicating the quality of the connection between the two nodes; determining a quality parameter based on the operating parameter, wherein the quality parameter indicates the quality of the connection between the two nodes; and transferring information from the first computation node to the coordinator node, when the value of the quality parameter falls within a transfer interval, wherein the information comprises information about a part of a task performed by the first computation node.

Abstract: A pattern-based network management method and system is used in wireless, mobile networks. An explorer message is successively propagated over a dynamic network and any operating links are verified. This verification is preferably based on that the nodes receiving the explorer message will acknowledge the receipt back to the sending node. The sending node may thereby identify which nodes are reachable at the moment. The receiving nodes will reply to the explorer message and successively return the replies to the original node. The replies are compiled at the original node. In one embodiment, the compilation of the replies will form a basis for network management operations. In another embodiment, the explorer message itself will form a basis for network management operations in at least one of the receiving nodes, and the replies then preferably contains information about results of such operations.

Abstract: The present invention discloses an inventive microphone assembly for desktop communication systems. It utilises the advantages of placing the microphone in a desktop conferencing system as close as possible to the tabletop surface, without exposing the microphone for unfavourable mechanical or acoustic influence. This is achieved by building it into the footing in front of system, in a mechanically controlled and robust way. In this way, the high frequency response can be controlled to optimise sound quality, and at the same time the microphone assembly can be configured as a flexible unit that easily can be re-used in other systems.