Abstract: The invention relates to switching between a point-to-multipoint channel and a point-to-point channel for transmitting multicast data from a mobile communication network to a mobile station. According to a first aspect of the invention, the mobile station determines the link quality of a point-to-multipoint channel employed for the transmission and requests from the network a switch to a point-to-point channel in case the determined link quality is too low. According to a second aspect of the invention, the network estimates the link quality of a point-to-multipoint channel while using at least a point-to-point channel for the transmission of multicast data, and orders the mobile station to switch to this point-to-multipoint channel, in case the estimated link quality of the point-to-multipoint channel is sufficiently high.

Abstract: Methods and apparatus operating in a stream processing network perform load shedding and dynamic resource allocation so as to meet a pre-determined utility criterion. Load shedding is envisioned as an admission control problem encompassing source nodes admitting workflows into the stream processing network. A primal-dual approach is used to decompose the admission control and resource allocation problems. The admission control operates as a push-and-pull process with sources pushing workflows into the stream processing network and sinks pulling processed workflows from the network. A virtual queue is maintained at each node to account for both queue backlogs and credits from sinks. Nodes of the stream processing network maintain shadow prices for each of the workflows and share congestion information with neighbor nodes.

Abstract: An apparatus and method for managing a Connection IDentifier (CID) in a communication system are provided. The method includes mapping a different index to at least one CID allocated by a base station (BS) and, if simultaneously transmitting packets for at least two CIDs, indexing a CID for packet transport by an index mapped to each CID and simultaneously transmitting packets for at least two CIDs.

Abstract: Mapping a source identifier in a source identifier space to a target identifier in a target identifier space using a hash-based computation that is stable over time with respect to a change in the number of target identifiers. A data item identifiable by a source identifier is associated with some type of computational resource that is represented by a target object identifiable by one or more target identifiers. The set of target objects is dynamically variable. After hashing the source identifier to produce an index position of an entry in a table, a target identifier is retrieved from the table entry. Each entry in the table is related to a single target identifier based on a nearness computation that depends upon the table index position of the table entry and a target identifier for the related target.

Abstract: A communication method in a mobile communication system that copies and transmits data, to which transmission sequence numbers have been attached, over a plurality of paths from a mobile station to a radio network controller via a plurality of base stations; where the radio network controller monitors the communication state of each path, determines to transmit the data over all of a plurality of paths, transmit the data over two or more specified paths, or transmit the data over only one specified path, based on the communication state of each path, and notifies the mobile station of the determined path/paths; and where the mobile station transmits said copied data over said notified path/paths.

Abstract: Methods and media for multi-layered packet security control are described. In one embodiment, a header of a packet is modified to include an identifier that identifies a manner in which the packet should be subject to a particular set of a plurality of sets of rules. The particular set of rules dictates how the packet is to be handled. Further, in one embodiment, the packet is communicated to a routing component, and the routing component is configured to reference the identifier to determine which, if any, of the plurality of sets of rules to apply to the packet.

Abstract: A data acquisition network includes an assembly of nodes including at least one wireless network of nodes in which two neighboring nodes transmit data between each other by radio waves. The assembly of nodes also includes at least one other network of nodes in which two neighboring nodes transmit data between each other by a cable. The data is also conveyed by radio waves. The at least one other network forms a cabled network of nodes.

Abstract: A communication system includes a source node for transmitting data and general nodes that function as relay nodes for relaying the data or destination nodes for receiving the data. Data encoding is performed in each node of the communication system. The source node is linked to the general nodes by one or more independent paths. The number of independent paths from the source node to each of the general nodes is counted. A tap-proof index is calculated based on the maximum number of independent paths and the size of a set of elements formed by the encoded data. The security level against tapping is determined according to the value of the tap-proof index.

Abstract: Method and apparatus including registering a first spoke router with a hub router, forwarding an Internet Protocol version Four (IPv4) data packet from the first spoke router to a second spoke router over an Internet Protocol version Six (IPv6) multipoint tunnel via the hub router, transmitting a binding information associated with the first spoke router from the hub router to the second spoke router, and establishing a direct communication path by the second spoke router with the first spoke router based on the received binding information are provided.

Abstract: A method of determining the sequence of traversing nodes in a communication network is provided. The method comprises with each node, determining other nodes in the network it can reach in a single hop. Creating a local sequence connection order based on the determined other nodes the node can reach in a single communication hop. Storing historical data of local sequence connection order information and determining a new local sequence connection order based in part on the historical data and communication information.

Abstract: A service chain system is provided. The system includes a packet of data that is operable to pass through a network of service nodes as defined by a service chain; and a service classification device that is operable to change the service chain based on a system performance.

Abstract: A system and method for transmitting data packets to a wireless client is presented herein. The data packets are received by a wireless content switch in the wireless network. The wireless content switch assigns the priority of transmission for the data packet based on both the purchased level of service by the subscriber receiving the data packet, as well as the application the data packet is transmitted.

Abstract: A method for controlling the establishment of a connection within an optical network comprising the steps consisting in: transmitting a control message node-to-node along a path of said connection from an input node (A) to an output node (D) of the connection, said control message comprising a step indication field to indicate a current step (60) of the connection establishment, performing a local operation (62, 63) corresponding to said step indication field within at least one node, transmitting a step acknowledgment to the connection's input node after having completed said local operation, in response to receiving the step acknowledgment, transmitting another control message node-to-node from the input node, wherein said step indication field indicates a following step (70) within a sequence of steps.

Abstract: A separability control device formed by connecting plural node devices in a tree-like shape while forming plural hierarchy levels placing a delivery device at a top to enable content data from the delivery device to be sequentially transferred from the node device on an upper hierarchy level to the node device on an lower hierarchy level, including: a simultaneous separation process upper limit number determination means for determining a simultaneous separation process upper limit number being an upper limit number of the node devices capable of separating simultaneously based on the number of the participating node devices; a separation request information receiving means; and a separation permission notification means for sending a separation permission notification of permitting the node device being a separation request information sending source when the number of the node devices currently under the separation process does not reach the simultaneous separation process upper limit number.

Abstract: Systems and methods for connections on an Automatically Switched Optical Network (ASON) network including an ASON database and path computation algorithm, mechanisms for Ethernet connections over ASON, and mechanisms for label negotiation for SNCs are provided. Advantageously, the present invention provides mechanisms for ASON path computation and virtual topology management, Ethernet connection establishment, modification, and deletion in ASON networks, and label negotiation without requiring binding and releasing of connections before label negotiation.

Abstract: The present invention provides a method of supporting a multi-port virtual local area network (VLAN) with a multi-protocol Label switch (MPLS), comprising steps of: establishing a label switching path (LSP) by the label distribution protocol (LDP), and obtaining information binding a forwarding equivalence class (FEC) and a label or information binding an ingress label and an egress label, and an address of a LDP peer entity at an opposite end, which is a next-hop IP address; the MPLS table item managing module creating a forwarding-relation table, and adding a forwarding-relation table item based upon the obtained information; obtaining an egress port corresponding to the forwarding-relation table item based upon the next-hop IP address; and accomplishing the MPLS via the egress port. With the present invention, it is possible to support the multi-port VLAN in a three-layer switch with the function of the MPLS and implement the MPLS in the VLAN.

Abstract: Methods and systems are provided for synchronizing reservation status between an access terminal and an access node. In one embodiment, an access terminal receives a report from an access node, the report reflecting a first set of reservations, wherein the first set is a set of reservations that the access node is maintaining with respect to communicating with the access terminal. In response to receiving the report, the access terminal compares the first set of reservations with a second set of reservations, wherein the second set is a set of reservations that the access terminal is maintaining with respect to communicating with the access node. Upon comparing the first set with the second set, the access terminal determines that the first set is not equal to the second set, and responsively sends one or more messages to the access node to cause the access node to modify the first set to match the second set.

Abstract: An IPsec processor for performing IPsec processing of traffic packets is disclosed. The IPsec processor comprises a network processing module (500) and a hardware co-processing module (502) coupled to the network processing module (500) via an interface, the co-processing module (500) comprising a policy check processor (525), and a packet transform processor (526). The network processing module (500) is adapted for communicating a part of a packet to the policy check processor (525) via the interface, and if IPsec processing of the packet is required, communicating the packet to the packet transform processor (526) via the interface, and scheduling the IPsec processed said packet, received from the packet transform processor (526) via the interface, for forwarding.

Abstract: There is described a module for expanding a central module of an automation system, the data transfer between module and central module being accomplished by means of a serial communication system having point-to-point connections in a daisychain or backplane layout and the module having, in a physical layer herefor, at least two transmitters and at least two receivers. There is also described a communication system having at least one module of said kind and a central module. A module for a communication system within an automation system is specified, which module can be flexibly and easily adapted to the respective field of application. There is further described a flexible and scalable communication system for the data transfer between a central module/a CPU and at least one module with the aim of realizing a modular expansion of the central module/CPU.

Abstract: Independently controlling the transmitted power of each subchannel by a subchannel control loop is described. A transmitting station generates a channel made up of a sum of subchannels wherein each subchannel or group of subchannels is amplified with a unique gain value that is varied in accordance with subchannel power control messages from the receiving station. The receiving station generates each subchannel power control message subsequent to monitoring and calculating metrics based on that received subchannel.