Patent application number | Description | Published |
20090129388 | Sip header reduction - A SIP header reduction protocol operating on a communication network to compress the SIP header fields on SIP control messages used to initiate a SIP communication session. The new protocol is implemented on the mobile use equipment (UE) ( | 05-21-2009 |
20090135783 | FMIPv6 Intergration with Wimax - A fast handover protocol standard implemented on WiMAX networks integrating Internet protocol fast handover messaging. A standard for performing handover in four scenarios is offered with an embodiment for the message flow to perform the handover. The four scenarios include a mobile subscriber station initiated predictive hand-off, a network initiated predictive hand-off, a mobile subscriber station initiated reactive hand-off, and a network initiated reactive hand-off. In general, Internet Protocol control messages for fast hand-off or handover are used on the WiMAX network. Fast binding and fast binding acknowledge messages are exchanged between two WiMAX access networks in all four scenarios. Other messages used include hand-off initiate, hand-off acknowledge, proxy router advertisement, session information request, and release resources Internet Protocol control messages are integrated with WIMAX control messages to perform the fast handover protocol. | 05-28-2009 |
20100106969 | DYNAMIC FOREIGN AGENT-HOME SECURITY ASSOCIATION ALLOCATION FOR IP MOBILITY SYSTEMS - The present invention utilizes the AAA infrastructure to dynamically allocate the various parameters needed to establish the security association between the Foreign Agent and the Home Agent. The present invention uses the AAA server as a central entity to dynamically generate and distribute the chosen security association parameters needed to support the Foreign Agent and Home Agent security association based on a request from the Foreign Agent. The AAA server can also dynamically assigns a unique SPI value to the Foreign Agent and Home Agent pairs. The various parameters that can be allocated in the present invention include a FA-HA shared secret key or a public/private key pair, an authentication algorithm and mode, a FA-HA secret key lifetime, and security parameter index or security index values. The present invention also can assist in making sure that the Foreign Agent and the Home Agent stay synchronized with respect to their security association. | 04-29-2010 |
20100110957 | NEGOTIATING DIFFERENT MOBILE IP DELIVERY STYLES - The present invention provides a system and method to selectively negotiate different delivery styles for different types of packets sent from the Mobile Node to the Foreign Agent, which will allow the Mobile Node to negotiate a delivery style that will permit the Foreign Agent to transmit certain selected outbound traffic directly without reverse tunneling that traffic back to the home network. Specifically, the present invention allows the Foreign Agent to distinguish between certain types of BC/MC packets that are designated to be processed and routed to their destinations by the Foreign Network directly, as opposed to reverse tunneling the outbound traffic from the Foreign Agent back to the Home Agent on the home network. By selecting processing by the Foreign Network, the efficiency of the system will improve because the transmission of outbound traffic and inbound responses will not need to be tunneled through the Home Network. | 05-06-2010 |
20100254347 | Support for Continuity of Tunnel Communications for Mobile Nodes Having Multiple Care of Addressing - The present invention solves communication disruption problems during the hand-off transition period by using a pre-handoff registration of a new foreign agent on behalf of the mobile node The pre-handoff registration message should: (1) identify itself as a pre-hand off registration message, (2) indicate direction of traffic for the pre-handoff registration time period, and (3) specify a lifetime or time period when the pre-handoff registration request will continue to be considered valid The local mobility anchor will accept traffic using the pre-handoff registration care-of address depending on the directionality indicator, but the communication traffic to or from the mobile node will not be disrupted during the transition period. Because the care-of address for the mobile node on the new foreign network can be used to direct communication traffic to or from the mobile node during this transition time period, no disruption of service will be encountered. | 10-07-2010 |
20100272061 | Support for Multi-Homing Protocols - The present invention solves these problems with a new proxy binding update request and proxy binding acknowledgment messages having new indicators and identification information. Namely, the home agent/local mobility anchor will exchange proxy binding update messages and proxy binding acknowledge messages that include information such as mobile node identification (MN-ID), home network prefix (HNP), but can also include selective information fields such as, access type, handover indicator (HO), and interface identification (interface ID) By including new access type, indicator, and identification information, the local mobility anchor can respond to a binding update request message with a better understanding of the new connectivity request from the mobile node. | 10-28-2010 |
20100290621 | TUNNELING SUPPORT FOR MOBILE IP USING A KEY FOR FLOW IDENTIFICATION - In a network that supports mobility of a mobile node, a tunnel between a first mobility node and a second mobility node is established in the network. The established tunnel is according to a tunneling protocol (e.g., Generic Routing Encapsulation tunneling protocol) that uses at least one key ( | 11-18-2010 |
20100332821 | Mobile IP Over VPN Communication Protocol - The present invention supports a communication protocol for transmission of information packets between a mobile node and a virtual private network. Information packets are encapsulated and decapsulated along the route as the information packet is forwarded among the various networks on its path to the destination address; either the mobile node on a foreign network or a correspondence node on a virtual private network. A home agent on the virtual private network supports transmitting the information packets, and the information packets are transmitted from the virtual private network from the home agent or a virtual private network gateway. | 12-30-2010 |
20110007711 | Support for Multi-Homing Protocols Using Transient Registration and Expanded Binding Revocation Messages - The present invention solves these problems with a new proxy binding update request and proxy binding acknowledgement messages having new indicators and identification information. Namely, the home agent/local mobility anchor will exchange proxy binding update messages and proxy binding acknowledge messages that include information such as mobile node identification (MN-ID), home network prefix (HNP), but can also include selective information fields such as, access type, handover indicator (HO), and interface identification (interface ID). By including new access type, indicator, and identification information, the local mobility anchor can respond to a binding update request message with a better understanding of the new connectivity request from the mobile node. The invention also includes a binding revocation message with expanded trigger field information sent from the local mobility anchor to the mobile access gateways. | 01-13-2011 |
20110040886 | Method and System for Identification of Packet Gateways Supporting Different Service Types - The present invention provides a method and system for identification of the different packet gateways that support different types of services on their packet data networks. The method and system provides identification and addressing information to user equipment for one or more packet gateways that support different types of services, sometimes called QoS services. The identification and addressing information for the one or more packet gateways is provided in the present invention by and through a DNS server or an AAA server depending on the network architecture and the IP version supporting the communications with the mobile node. | 02-17-2011 |
20110090851 | Method and System for Transmission of Fragmented Packets on a Packet-Based Communication Network - The present invention provides a method and system for the identification and discovery of the lowest maximum transmission unit (MTU) size for transmission packets on some or all of the transmission path nodes. Different methods and protocols are described in the present patent application to support the identification and discovery of the lowest maximum transmission unit (MTU) size for fragmented transmission packets. | 04-21-2011 |
20110191819 | Diameter Signaling for Mobile IPv4 - The invention consists of a new registration and authentication protocol for between a Mobile Node and a Home Agent. The new protocol uses a novel messaging sequence to request registration, authentication and authorization of the Mobile Node when it is located on a foreign network, and the novel protocol will avoid some of the standard registration and authentication protocol messages in order to eliminate the problems associated with re-transmission errors. | 08-04-2011 |
20120129526 | SESSION SUSPEND AND RESUME USING A TRANSIENT BINDING OPTION MESSAGING - The present invention uses a message with a suspend/resume flag setting sent to the local mobility anchor from the foreign agent that was supporting downlink transmissions to the mobile node. Namely, a transient binding option is proposed for creating a transient BCE state at the home agent/local mobility anchor during an inter-MAG handover, which will suspend down-link traffic from the home agent/local mobility anchor until the transient BCE (suspend) state is cleared by the foreign agent previ-ously supporting downlink transmissions. After the transient BCE (suspend) state is cleared, the downlink traffic from the home agent/local mobility anchor can resume with forwarding of downlink traffic to the mobile node through the foreign agent. The present invention can be implemented using a new protocol application or modified messages from prior registration applications. | 05-24-2012 |
20120131644 | Mobile IPv6 authentication and authorization baseline - The invention consists of an authentication protocol for the Home Agent to authenticate and authorize the Mobile Node's Binding Update message. Two new mobility options compatible with RADIUS AAA are used to exchange a shared secret between the Home Agent and the Mobile Node so the Mobile Node can be authenticated.
| 05-24-2012 |
20120195266 | Mobile IP over VPN Communication Protocol - The present invention supports a communication protocol for transmission of information packets between a mobile node and a virtual private network. Information packets are encapsulated and decapsulated along the route as the information packet is forwarded among the various networks on its path to the destination address; either the mobile node on a foreign network or a correspondence node on a virtual private network. A home agent on the virtual private network supports transmitting the information packets, and the information packets are transmitted from the virtual private network from the home agent or a virtual private network gateway. | 08-02-2012 |
20120208533 | Negotiating different mobile IP delivery styles - The present invention provides a system and method to selectively negotiate different delivery styles for different types of packets sent from the Mobile Node to the Foreign Agent, which will allow the Mobile Node to negotiate a delivery style that will permit the Foreign Agent to transmit certain selected outbound traffic directly without reverse tunneling that traffic back to the home network. Specifically, the present invention allows the Foreign Agent to distinguish between certain types of BC/MC packets that are designated to be processed and routed to their destinations by the Foreign Network directly, as opposed to reverse tunneling the outbound traffic from the Foreign Agent back to the Home Agent on the home network. By selecting processing by the Foreign Network, the efficiency of the system will improve because the transmission of outbound traffic and inbound responses will not need to be tunneled through the Home Network. | 08-16-2012 |
20130044719 | Dynamic Allocation of Host IP Addresses - The present invention facilitates dynamic allocation of home IP addresses for a mobile node, when it is roaming away from a home network and supported by a foreign network. After the mobile node obtains a care-of address from the foreign network, a stateful or stateless configuration process is used to dynamically allocate a home IP address for the mobile node. In the stateful approach, a binding update message is used to request a home IP address for the mobile node from its home agent. In a stateless embodiment, the mobile node will create a home IP address, which is sent to the home agent for verification via the binding update message. The home agent will receive the home IP address in the binding update message, verify the home IP address, and send acknowledgement of the verification, assuming the home IP address is verified, to the mobile node. | 02-21-2013 |
20130051367 | Support for Continuity of Tunnel Communications for Mobile Nodes Having Multiple Care of Addressing - The present invention solves communication disruption problems during the hand-off transition period by using a pre-handoff registration of a new foreign agent on behalf of the mobile node The pre-handoff registration message should: (1) identify itself as a pre-hand off registration message, (2) indicate direction of traffic for the pre-handoff registration time period, and (3) specify a lifetime or time period when the pre-handoff registration request will continue to be considered valid The local mobility anchor will accept traffic using the pre-handoff registration care-of address depending on the directionality indicator, but the communication traffic to or from the mobile node will not be disrupted during the transition period. Because the care-of address for the mobile node on the new foreign network can be used to direct communication traffic to or from the mobile node during this transition time period, no disruption of service will be encountered. | 02-28-2013 |
20130064223 | SUPPORT FOR MULTI-HOMING PROTOCOLS - The present invention solves the problems with a new proxy binding update request and proxy binding acknowledgement messages having new indicators and identification information. Namely, the home agent/local mobility anchor will exchange proxy binding update messages and proxy binding acknowledge messages that include information such as mobile node identification (MN-ID), home network prefix (HNP), but can also include selective information fields such as, access type, handover indicator (HO), and interface identification (interface ID). By including new access type, indicator, and identification information, the local mobility anchor can respond to a binding update request message with a better understanding of the new connectivity request from the mobile node. | 03-14-2013 |
20130070769 | METHOD AND SYSTEM FOR IDENTIFICATION OF PACKET GATEWAYS SUPPORTING DIFFERENT SERVICE TYPES - The present invention provides a method and system for identification of the different packet gateways that support different types of services on their packet data networks. The method and system provides identification and addressing information to user equipment for one or more packet gateways that support different types of services, sometimes called QoS services. The identification and addressing information for the one or more packet gateways is provided in the present invention by and through a DNS server or an AAA server depending on the network architecture and the IP version supporting the communications with the mobile node. | 03-21-2013 |
20130130655 | Dynamic Foreign Agent-Home Agent Security Association Allocation for IP Mobility Systems - Utilizing the AAA infrastructure to dynamically allocate the various parameters needed to establish the security association between the Foreign Agent and the Home Agent. The present invention uses the AAA server as a central entity to dynamically generate and distribute the chosen security association parameters needed to support the Foreign Agent and Home Agent security association based on a request from the Foreign Agent. The AAA server can also dynamically assigns a unique SPI value to the Foreign Agent and Home Agent pairs. The various parameters that can be allocated in the present invention include a FA-HA shared secret key or a public/private key pair, an authentication algorithm and mode, a FA-HA secret key lifetime, and security parameter index or security index values. The present invention also can assist in making sure that the Foreign Agent and the Home Agent stay synchronized with respect to their security association. | 05-23-2013 |
20130308538 | Mobile Route Optimization - Embodiments provide techniques for mobile route optimization authentication protocols. Embodiments allow for system control over whether route optimization is allowed or not allowed. A conditional allowance of route optimization solves several billing and security issues by allowing the system to impose appropriate charges for the route optimization feature or prevent route optimization where message flow using care-of addressing can be monitored. | 11-21-2013 |
20130331088 | MOBILE TERMINAL FOR SMALL CELL CONFIGURATION AND MAINTENANCE - The claimed subject matter is directed to defining a framework that enables wireless communicability between base stations for maintenance and configuration purposes, even while disconnected from an operator network, and/or deployed in the field. Embodiments are particularly applicable in the cases of small-cell base transceiver stations deployed in inconvenient, secluded, elevated and/or difficult to reach locations. The small cell base transceiver station is operable to communicate wirelessly to wireless terminals and mobile computing devices by emulating select functionality from dedicated components in an operator network. | 12-12-2013 |
20130333001 | Mobile IPv6 Authentication and Authorization Baseline - Various embodiments describe an authentication protocol for the Home Agent to authenticate and authorize the Mobile Node's Binding Update message. Two new mobility options compatible with RADIUS AAA are used to exchange a shared secret between the Home Agent and the Mobile Node so the Mobile Node can be authenticated. A Mobile Node-AAA authenticator option is added to the Binding Update message. The Home Agent generates the Mobile Node-AAA authenticator as a shared secret that it communicates as authentication data to the RADIUS AAA server on the home network. The RADIUS AAA server authenticates the communication and generates an Access-Accept message with a Mobile Node-Home Agent authenticator option. After receipt at the Home Agent, a Binding Update message with the Mobile Node-Home Agent authenticator option is transmitted from the Home Agent to the Mobile Node to use as an authenticator. | 12-12-2013 |
20140079019 | METHOD AND SYSTEM FOR HARD HANDOFF IN HRPD - Various embodiments are described to assist in reducing handoff delays and the blackout period(s) associated with inter AN (access network) hard handoffs. The hard handoff procedure of method disclosed herein establishes or initiates a connection (A10-type connection) between a target AN and a packet data serving node (PDSN), unlike known hard handoff approaches that wait until traffic channel assignment to establish or initiate such connection. The PDSN may optionally bicast data packets to both the source and target ANs since each is communicatively coupled to the PDSN during a given time period. In the event bicasting is unavailable or unused, a communication tunnel between the source and target ANs may be created and used to transmit data packets between them. | 03-20-2014 |
20140090048 | Mobile IP Over VPN Communication Protocol - The present invention supports a communication protocol for transmission of information packets between a mobile node and a virtual private network. Information packets are encapsulated and decapsulated along the route as the information packet is forwarded among the various networks on its path to the destination address; either the mobile node on a foreign network or a correspondence node on a virtual private network. A home agent on the virtual private network supports transmitting the information packets, and the information packets are transmitted from the virtual private network from the home agent or a virtual private network gateway. | 03-27-2014 |
20140192721 | Diameter Signaling for Mobile IPv4 - The invention consists of a new registration and authentication protocol for between a Mobile Node and a Home Agent. The new protocol uses a novel messaging sequence to request registration, authentication and authorization of the Mobile Node when it is located on a foreign network, and the novel protocol will avoid some of the standard registration and authentication protocol messages in order to eliminate the problems associated with re-transmission errors. | 07-10-2014 |