Patent application number | Description | Published |
20090154341 | Method And Apparatus For Providing Network Redundancy - According to one embodiment, providing network redundancy includes configuring a session registrant database to have one or more virtual standby states. Each virtual standby state corresponds to an active router. The session registrant database receives session information from the active router(s) and determines that an active router has failed. A virtual standby state corresponding to the failed router is set to a virtual active state. A second router is configured to have a standby state associated with the set virtual active state. The session information received from the failed router is transferred to the second router, and the second router is configured to have an active state. | 06-18-2009 |
20090232090 | Performing Handovers For Fixed Mobile Convergence Networks - According to one embodiment, an anchor access gateway receives packets from a home agent. The packets are destined for an access terminal, and the anchor access gateway serves the access terminal. The packets are forwarded to the access terminal. The anchor access gateway receives a handoff request from a target access gateway. The handoff request requests a handover from the anchor access gateway to the target access gateway. The packets are forwarded to the target access gateway in accordance with the handoff request. | 09-17-2009 |
20090257425 | Synchronizing DHCP And Mobile IP Messaging - Synchronizing mobility messaging includes receiving an Internet Protocol (IP) address at a Dynamic Host Configuration Protocol (DHCP) server. The IP address is sent by a home agent of a mobile client, where the home agent has a mobility binding for the mobile client. A DHCP request requesting an IP address for the mobile client is received from the mobile client. The DHCP server assigns the IP address to the mobile client. A DHCP acknowledgement comprising the assigned IP address is sent to the mobile client. | 10-15-2009 |
20100039932 | Hierarchical Redundancy for a Distributed Control Plane - A method and apparatus for hierarchical redundancy for a distributed control plane. In one embodiment of the invention, control plane processes are distributed among a plurality of processing entities including an active primary control processing entity and multiple secondary processing entities. Each of the secondary processing entities performs a dual role; an active role and a standby role. An application redundancy manager (ARM) instantiated on the active primary control processing entity manages the redundancy services for the secondary processing entities. For each secondary processing entity, the ARM selects one of the secondary processing entities to act as a backup for another one of the secondary processing entities. Upon a failure of one of the secondary processing entities, the ARM causes the secondary processing entity backing up the failed secondary processing entity to transition its standby role to an active role regarding the services provided by the failed secondary processing entity. | 02-18-2010 |
20100042712 | Method and Apparatus for a Distributed Control Plane - A method and apparatus for a distributed control plane. In one embodiment of the invention, a primary control card distributes control plane process instances among one or more secondary cards, including a secondary control card and/or one or more Advanced Service Engine (ASE) cards. The primary control card associates particular control messages with particular control plane process instances. Upon a line card receiving a control message that is associated with a particular control plane instance, the line card forwards the control message directly to that particular control plane instance. | 02-18-2010 |
Patent application number | Description | Published |
20130114502 | MANAGED ACCESS TO MOBILE ENDPOINTS - In one implementation, a method for managing access to mobile endpoints leverages the always-on nature of a first internet layer protocol to expand the reach of a second internet layer protocol. A network device receives a request originating from a remote host. The request includes a domain name of a mobile endpoint. The network device queries a database using the domain name for a first address of the mobile endpoint as designated according to the first internet layer protocol. The network device transmits a wake up message to the mobile endpoint using the first address. A data bearer for communication with the second internet layer protocol is established based on the wake up message, and a second address is assigned to the mobile endpoint. The second address is forwarded to the remote host, allowing communication between the remote host and the mobile endpoint. | 05-09-2013 |
20130135427 | Techniques For a Rate-Adaptive Video Conference Bridge - A rate adaptive video conference bridge and related techniques are provided. At a video conference bridge, a source video stream is received from a source endpoint device in a network. The source video stream is encoded using a first encoder unit and second encoder unit to generate respective first and second encoded video streams. A determination is made whether to decrease or increase a bit rate of the source video stream based on network condition information. If the bit rate is to be decreased, the first encoder unit is instructed to send the first encoded video stream to a destination endpoint device. If the bit rate is to be increased, the second encoder unit is instructed to send the second encoded video stream to the destination endpoint device. | 05-30-2013 |
20130138823 | SYSTEM AND METHOD FOR EXTENDED WIRELESS ACCESS GATEWAY SERVICE PROVIDER WI-FI OFFLOAD - A method is provided in one example embodiment and includes receiving a dynamic host configuration protocol (DHCP) discovery signal at a wireless network element from a customer premise equipment; requesting that a data session be established at a gateway; receiving an Internet protocol (IP) address; and communicating the IP address to the customer premise equipment. | 05-30-2013 |
20130142047 | Channel Quality Aware Transport Flow Compensation - Channel quality of an airlink is assessed at an edge router of a radio-access communication network. Based on the assessment, the cause of lost data is determined to be due to traffic congestion or due to poor channel quality. In the latter case, congestion recovery/avoidance processes of a transport protocol of over a spliced transport connection can be overridden to avoid unnecessary limitations to data flow. | 06-06-2013 |
20130151386 | Service Delivery in Networks - A method for providing access to a service using a network is implemented by establishing an agreement between an enterprise and a network service provider administering a network. Based on establishing the agreement, information is received from the network service provider on network resources configured to enable access to the service provided by the enterprise. A request to access the service is received from a network device via the network. The identity of the user associated with the network device is verified. Based on successfully verifying the identity of the user, the network device is sent information on the network resources. A service connection is established between the network device and the enterprise using the network resources that are configured to enable access to the service. The network device is allowed access to the service over the service connection. | 06-13-2013 |
20130191257 | CONNECTIVITY SYSTEM FOR MULTI-TENANT ACCESS NETWORKS - A system may provide connectivity service in a multi-tenant network. A first node in the multi-tenant network can receive data packets, each of the data packets identifying one of a plurality of tenant devices. The first node can determine an Internet Protocol (IP) address associated with each of the data packets. The first node can determine a Virtual Local Area Network Identifier (VLAN ID) based on the IP address, the VLAN ID being a unique identifier of a respective one of the tenants. The first node can add the VLAN ID of a corresponding one of the tenants into a header of each of the data packets. The first node can transport the data packets to a second node in the multi-tenant network via a multi-tenant network tunnel protocol. | 07-25-2013 |
20140052837 | PRIORITZED BRANCH COMPUTING SYSTEM - A branch device that may be operable to: request to initiate access to a cloud computing application; map or link service level agreement information associated with the cloud computing application to performance and uptime specifications associated with a policy engine; and communicate with a first computational node that runs a first instance of the cloud computing application. Also, the branch device may be operable to: compare the performance data and the uptime data retrieved from the first computational node against the specifications, respectively; direct a request to the first instance, where the performance data and the uptime data at least satisfies the specifications, respectively; and direct a request to a second instance of the cloud computing application running on a second computational node, where the performance data and the uptime data do not satisfy the specifications, respectively. | 02-20-2014 |
20140119183 | CONTROL OF RATE ADAPTIVE ENDPOINTS - An apparatus may receive a plurality of data streams for transmission over a network. The apparatus may adjust packet drop rates in proportion to differences between actual bit rates and target bit rates of the data streams. Information about the adjusted packet drop rates may be provided to rate adaptive endpoints that are generating the data streams. The rate adaptive endpoints may respond to the information by adjusting the bit rates at which the data streams are encoded. Over one or more time intervals, the bit rates are adjusted to levels that yield a transmission of the data streams that is both balanced and unbiased. | 05-01-2014 |
20140159923 | Elastic Clustering of Vehicles Equipped with Broadband Wireless Communication Devices - The techniques described herein provide mechanism that allows a Vehicular Communication Systems (VCSs) server, e.g., a cluster server, or other network attached device to group or cluster a set of vehicles into a multicast group according to common mobility characteristics shared by the set of vehicles. For example, the set of vehicles may be in close proximity to each other and are traveling on the same road, or share a common destination. Information pertinent to the cluster, can be broadcast to the multicast group in lieu of traditional individual unicast messages that would typically be sent to each vehicle. | 06-12-2014 |
20150023169 | System and Architecture to Optimize Video Traffic over Internet Protocol Networks - Techniques are provided for managing network traffic and alleviating network congestion issues in video conference environments. At a video conference bridge device configured to send and receive communications to an endpoint device in a network, one or more video streams are received from the endpoint participating in a video conference. Each of the video streams is classified as a rate adaptive stream or as a non-rate adaptive stream. For video streams classified as rate adaptive streams, the video streams are assigned to a buffer queue for rate adaptive streams. For video streams classified as non-rate adaptive streams, the video streams are assigned to a buffer queue for non-rate adaptive streams. | 01-22-2015 |
20150078202 | MANAGED ACCESS TO MOBILE ENDPOINTS - A network device may be configured to provide a gateway between a remote host and a mobile node using multiple interconnection protocols. The network device may include database circuitry configured to query a database for a first or second address of a mobile node using a domain name of the mobile node. The addresses may be associated with different interconnection protocols. The network device may include communication interface circuitry configured to receive a request from a remote host to communicate with the mobile node. The request may include the domain name. The interface circuitry may also be configured to transmit a message indicating the request using the first address, and transmit the second address to the remote host so that the remote host can communicate with the mobile node using the second address. The message may include a command to establish a data bearer through the second address. | 03-19-2015 |
Patent application number | Description | Published |
20080261099 | Heterogeneous ceramic composite SOFC electrolyte - A solid oxide fuel cell (SOFC) includes a cathode electrode, a solid oxide electrolyte, and an anode electrode. The electrolyte includes yttria stabilized zirconia and scandia stabilized zirconia, such as scandia ceria stabilized zirconia. | 10-23-2008 |
20100129693 | Coating process for production of fuel cell components - A method of making a solid oxide fuel cell (SOFC) includes providing a solid oxide electrolyte and depositing at least one electrode on the electrolyte by PVD, such as sputtering. A method of making an interconnect for a fuel cell stack includes providing an electrically conductive interconnect, and depositing a layer on the interconnect by PVD, such as depositing a LSM barrier layer by sputtering. The SOFC and the interconnect may be located in the same fuel cell stack. | 05-27-2010 |
20120244448 | Rapid Thermal Processing for SOFC Manufacturing - Methods of heat treating at least one component of a solid oxide fuel cell (SOFC) system. The method includes heating the at least one component with a rapid thermal process, wherein the rapid thermal process heats at least a portion of the component at a rate of approximately 50° C./sec or more. | 09-27-2012 |
20130130154 | Fuel Cell Interconnect Heat Treatment Method - Methods for fabricating an interconnect for a fuel cell stack include placing a compressed metal powder interconnect on a porous support, and sintering the interconnect in the presence of a non-oxidizing gas. The method may further include placing the sintered interconnect on a porous support, and oxidizing the interconnect in the presence of flowing air, or placing the sintered interconnect on a dense, non-porous support, and oxidizing the interconnect in the presence of a gas comprising pure oxygen or an oxygen/inert gas mixture that is substantially nitrogen-free. | 05-23-2013 |