Patent application number | Description | Published |
20100177686 | METHOD FOR PERFORMING ROUTE OPTIMIZATION BETWEEN TWO NODES IN NETWORK BASED MOBILITY MANAGEMENT - A method for performing route optimization between two nodes in network based mobility management, wherein each of the two nodes is associated with an access network via attachment to an access router, the access routers having directly or indirectly assigned a Mobility Access Gateway (MAG) that signals the node's presence to a Mobility Anchor (MA) which maintains the current IP address information along with location information of the node, is characterized in that some specific control for setting up a route optimized path for data packet exchange between the two nodes is assigned to the Mobility Anchors (MA). | 07-15-2010 |
20100223365 | METHOD FOR CONTROLLING PROXY BINDING OF A MOBILE NODE - A method for controlling proxy binding of a mobile node in a network that supports network-based mobility management, wherein the mobile node includes at least one network interface that is employed for attaching to the network via an access router, wherein a mobile node's binding for a network interface is initiated by a binding request, is characterized in that the mobile node's binding for a new network interface is qualified as a preliminary binding, which is not employed for downlink data transmission, and that the mobile node's preliminary binding is activated, after the mobile node's new network interface has been configured. | 09-02-2010 |
20110176488 | METHOD FOR FACILITATING COMMUNICATION IN A MOBILE COMMUNICATION SYSTEM AND MOBILE COMMUNICATION SYSTEM - A method for facilitating communication in a mobile communication system in which address-delegating entities are involved, wherein mobile nodes attaching to the communication system get assigned an address or address prefix, wherein the address or address prefix assignment is delegated from an entity being associated with mobility management—mobility entity—to some other configuration component ( | 07-21-2011 |
20110286395 | RADIO NETWORK AND A METHOD FOR OPERATING A RADIO NETWORK - A radio network allows a flexible distribution of data flows between a mobile station and a mobility anchor of the network over different interfaces. Data flows are routed between at least one mobile station and a mobility anchor of the network. The mobile station can connect to the mobility anchor using multiple network interfaces simultaneously, the radio network including an application function capable of processing and/or analyzing information about routing policies contained in a signalling received from a mobile station, which is able to push or signal the processed and/or analyzed information from the application function to an entity that can enforce routing policies to forward the data flows to one or more selected interfaces and which is able to signal routing policies received from the network to the mobile station. Further, an according method for operating a radio network, especially for routing data flows within the network, is disclosed. | 11-24-2011 |
20120044887 | COMMUNICATION NETWORK AND METHOD FOR OPERATING A COMMUNICATION NETWORK - A communication network, includes at least one mobile terminal ( | 02-23-2012 |
20120243432 | METHOD FOR OPERATING A MOBILE NETWORK FOR CHARGING TRAFFIC AND CORRESPONDING MOBILE NETWORK - A method for operating a mobile network, especially for charging traffic within the mobile network, wherein monitoring of chargeable events regarding traffic from and/or to a mobile node will be performed by a Charging Function for collecting charging data. The method is characterized in that a Charging Function's sub-function for monitoring of chargeable events on a data flow level or IP (Internet Protocol) flow level will be additionally located—as an additional sub-function D-CEMF (Delegated Chargeable Event Monitoring Function)—on at least one further network element, which is different from the Charging Function and which allows to traverse breakout and/or localized traffic of the mobile node, so that the Charging Function and the further network element each are including such a sub-function, and that the additional sub-function D-CEMF will report information regarding monitored chargeable events to the Charging Function. A mobile network for carrying out the method is described. | 09-27-2012 |
20140169271 | MOBILITY MANAGEMENT SYSTEM, MOBILITY MANAGEMENT METHOD, ACCESS GW APPARATUS, MOBILITY MANAGEMENT CONTROL APPARATUS, AND COMPUTER-READABLE MEDIUM - An access GW ( | 06-19-2014 |
20140307629 | PER-HOST LOCATOR TO ENABLE MOBILITY GATEWAY RELOCATION IN DISTRIBUTED MOBILITY MANAGEMENT - A method and system of relocating user equipment, such as a mobile device in a network from a first mobility anchor to a second mobility anchor, includes providing an identifier address to the user equipment when the latter is anchored to the first mobility anchor or gateway. When the user equipment is relocated to be anchored at the second mobility anchor or gateway, a per-host locator address is associated with the user equipment, the per-host locator address directing network packets to be routed to the second mobility anchor. A destination address of network packets addressed to the identifier address is translated to the per-host locator address, such that the network packets are routed to the second mobility anchor, and the destination address of network packets that are addressed to the per-host locator address are reverse translated to the identifier address, and the packets are forwarded to the user equipment. | 10-16-2014 |
Patent application number | Description | Published |
20090049313 | Proactive Power Management in a Parallel Computer - Proactive power management in a parallel computer, the parallel computer including a service node and a plurality of compute nodes, the service node connected to the compute nodes through an out-of-band service network, each compute node including a computer processor and a computer memory operatively coupled to the computer processor. Embodiments include receiving, by the service node, a user instruction to initiate a job on an operational group of compute nodes in the parallel computer, the instruction including power management attributes for the compute nodes; setting, by the service node in accordance with the power management attributes for the compute nodes of the operational group, power consumption ratios for each compute node of the operational group including a computer processor power consumption ratio and a computer memory power consumption ratio; and initiating, by the service node, the job on the compute nodes of the operational group of the parallel computer. | 02-19-2009 |
20090049317 | Managing Power in a Parallel Computer - Managing power in a parallel computer, the parallel computer including a power supply and a plurality of compute nodes, the plurality of compute nodes powered by the power supply through a plurality of DC-DC converters, each DC-DC converter supplying current to an assigned group of compute nodes, each DC-DC converter having a current sensor. Embodiments include monitoring, by the current sensor, an amount of current supplied by that DC-DC converter to its assigned group of compute nodes; determining, by at least one DC-DC converter, that the amount of current supplied is greater than a predefined threshold value; sending, by the at least one DC-DC converter to the plurality of compute nodes, a global interrupt, including notifying the plurality of compute nodes to reduce power consumption; and reducing, by the plurality of compute nodes in accordance with power consumption ratios, power consumption of the compute nodes. | 02-19-2009 |
20110119521 | REPRODUCIBILITY IN A MULTIPROCESSOR SYSTEM - Fixing a problem is usually greatly aided if the problem is reproducible. To ensure reproducibility of a multiprocessor system, the following aspects are proposed: a deterministic system start state, a single system clock, phase alignment of clocks in the system, system-wide synchronization events, reproducible execution of system components, deterministic chip interfaces, zero-impact communication with the system, precise stop of the system and a scan of the system state. | 05-19-2011 |
20120266008 | SYSTEM-WIDE POWER MANAGEMENT CONTROL VIA CLOCK DISTRIBUTION NETWORK - An apparatus, method and computer program product for automatically controlling power dissipation of a parallel computing system that includes a plurality of processors. A computing device issues a command to the parallel computing system. A clock pulse-width modulator encodes the command in a system clock signal to be distributed to the plurality of processors. The plurality of processors in the parallel computing system receive the system clock signal including the encoded command, and adjusts power dissipation according to the encoded command. | 10-18-2012 |