Patent application number | Description | Published |
20080198804 | HANDOVER BETWEEN AN IEEE 802.16 WiBro NETWORK AND A UMTS NETWORK USING MEDIA INDEPENDENT HANDOVER FUNCTION - A wireless transmit/receive unit (WTRU) may include an IEEE 802.16 modem, a universal mobile telecommunication system (UMTS) modem and a media independent handover (MIH) entity. Software application programming interfaces provide the MIH entity with mechanisms to receive information about IEEE 802.16 and UMTS links, control IEEE 802.16 and UMTS modems for handover, discover an MIH server and IP multimedia system nodes, trigger mobile IP handover, etc. If an IEEE 802.16 link has been successfully established, the MIH entity starts an MIH session. When the IEEE 802.16 modem indicates that a connection is going to be terminated, the MIH entity activates the UMTS modem for handover. If the IEEE 802.16 modem indicates that a link parameter has crossed a threshold, the MIH entity sends IEEE 802.16 and WCDMA signal measurements to an MIH server. After receiving an MIH switch request, the MIH entity initiates handover to the UMTS network. | 08-21-2008 |
20090161629 | MEDIA INDEPENDENT HANDOVER FOR SMART PHONE ARCHITECTURE - A wireless transmit/receive unit (WTRU) may include two or more modems, each configured to link to a different network, and a media independent handover (MIH) client. An application programming interfaces (API) may provide the MIH client with mechanisms to receive information about links, control the modems for handover, discover a MIH server and IP multimedia system nodes, trigger mobile IP handover, etc. If a link has been successfully established, the MIH client may start a MIH session. When the modem indicates that a connection is going to be terminated, the MIH client may activate the second modem for handover. If the first modem indicates that a link parameter has crossed a threshold, the MIH client may send signal measurements to a MIH server. After receiving a media independent handover switch request, the MIH client may initiate handover to the second network. | 06-25-2009 |
20090201879 | INTEGRATION OF 802.21 MEDIA INDEPENDENT HANDOVER FUNCTIONALITY TO RADIO INTERFACE LAYER AND TELEPHONY SERVER - A radio interface layer media independent handover (RIL MIH) client functionality enables transparent inter-system handover of a wireless transmit/receive unit (WTRU) between different radio access technologies (RATs), without user intervention. The RIL MIH client interacts with RIL drivers and proxies, informs the RIL proxies of the handover status, then the proxies interact with a new driver in use. A WTRU is modified to add MIH functionality to a telephony server to support inter-system handover. | 08-13-2009 |
20090257400 | METHOD AND APPARATUS FOR HANDOVER BETWEEN A NETWORK SUPPORTING PROXY MOBILE IP AND A NETWORK SUPPORTING MOBILE IP - A method and an apparatus for supporting handover between a first network supporting proxy mobile Internet Protocol (IP) (PMIP) and a second network supporting mobile IP (MIP) are disclosed. A PMIP entity in the first network may perform home agent (HA) discovery such that the PMIP entity may select an HA that responds with a pre-determined code indicating that a binding entry for the WTRU exists in the HA. The PMIP entity may store the HA IP address in an authentication, authorization, and accounting (AAA) server. The PMIP entity may retrieve the HA IP address for the WTRU from the AAA server when the WTRU is readmitted, and perform a binding update using the HA IP address. A media independent handover (MIH) client may trigger an HA discovery to obtain an HA IP address without performing MIP registration. The MIP client may retain the HA IP address when disabled. | 10-15-2009 |
20090318145 | PUSH MECHANISM FOR INFORMATION SERVICES IN IEEE 802.21 MEDIA INDEPENDENT HANDOVER - A push mechanism for IEEE 802.21 media independent handover (MIH) information services (IS) is provided to push information to MIH users. Alternatively, an indication may be provided that information is available, and a pull mechanism may then be implemented to retrieve the information. | 12-24-2009 |
20090325581 | METHOD AND APPARATUS FOR DYNAMIC MOBILE PROFILE FUNCTIONALITY - A method and apparatus provide dynamic mobile profile functionality in a media independent handover. This may include an MIH server dynamically changing a mobile profile in an MIH client. | 12-31-2009 |
20100111040 | METHOD AND APPARATUS FOR FAST BREAK-BEFORE-MAKE MEDIA INDEPENDENT HANDOVER - A method and apparatus may be used to perform a Media Independent Handover. Data may be received from a source node in a source network serving a WTRU. The WTRU may transmit a first message to an intermediary node and receive a second message in response. The WTRU may establish connectivity on a target network and receive data from a target node. | 05-06-2010 |
20100284291 | MOBILITY MANAGEMENT WITH DOWNLINK-ONLY WIRELESS NETWORKS - A wireless transmit/receive unit (WTRU) may include a media application that receives data from a media server via a link on a downlink (DL) -only radio access network. The link on the DL-only radio access network may be handed over to a second DL-only radio access network. A mobility management server, such as a Media Independent Handover (MIH) server, may communicate with the WTRU via a second radio access network that is a bidirectional radio access network to facilitate the handover. MIH messages may include fields that relate to DL-only radio access technologies may be used to facilitate handover of a DL-only link. Further, MIH broadcast or multicast messages may be used to facilitate the handover of a DL-only link. | 11-11-2010 |
20100302968 | COMMUNICATION ACCESS TECHNOLOGY MANAGEMENT - A method and apparatus are disclosed for communication access technology management. A wireless transmit/receive unit (WTRU) may evaluate end-to-end connection performance by sending a connection ECHO message and receiving a connection ECHO response. The connection performance may be evaluated for a connection including multiple transmission paths, and for multiple connections. The WTRU may establish or modify a multihoming communication session with a mobility server using a plurality of connections. Each connection may be established using a different interface. | 12-02-2010 |
20110064050 | BROADCAST SERVICE HANDOVER - A wireless transmit/receive unit (WTRU) may receive a broadcast service via a broadcast system. The broadcast service may be handed over from the broadcast system to a second broadcast system, and the WTRU may receive the broadcast service via the second broadcast system. The WTRU and/or the broadcast system may change broadcast service configuration parameters (such as video encapsulation format, video codec, frame rate, audio codec) to receive and/or display broadcast service data received via the second broadcast system. Additionally, a WTRU may receive a broadcast service via a broadcast system that includes more than one broadcast transmission network. The broadcast service may be handed over from a first broadcast transmission network in the broadcast system to a second broadcast transmission network in the broadcast system. The WTRU may change broadcast service configuration parameters to receive and/or display broadcast service data received via the second broadcast transmission network. | 03-17-2011 |
20110069676 | INFORMATION SERVICE AND EVENT SERVICE MECHANISMS FOR WIRELESS COMMUNICATIONS - A WTRU includes a transceiver and a media independent handover (MIH) function (MIHF), which transmits via the transceiver a request to set information in an external device. The MIHF receives a response to the request to store the information in the network node indicating that the request to store the information in the network node was successful. | 03-24-2011 |
20110110286 | METHOD AND APPARATUS FOR MULTICAST MOBILITY - A method and an apparatus for a proxy mobile Internet protocol (PMIP) supporting a dedicated multicast local mobility anchor (LMA) and mobile access gateway (MAG) is provided. The LMA assigns an Internet Protocol (IP) address to a wireless transmit receive unit (WTRU) that processes the IP address and sends a router solicitation message to a serving MAG. A WTRU is disclosed to receive a first IP address that is for unicast service and a second IP address that is for multicast services. Generally, the method and apparatus proposes architecture, interfaces, and procedures to enable multicast mobility using Proxy Mobile IP. More specifically operations of aggregated PMIP tunnels for multicast services are described. Multicast mobility is enabled when mobile nodes move from one MAG to another MAG, intra-LMA, and inter-LMA. And, Multicast mobility is enabled between bidirectional network and downlink only multicast network in a hybrid network. | 05-12-2011 |
20110196973 | METHOD AND APPARATUS FOR INTER-DEVICE SESSION CONTINUITY (IDSC) OF MULTI MEDIA STREAMS - A method and apparatus for Inter-Device Session Continuity (IDSC). IDSC may include session transfer, session duplication, peer discovery, media transport control, session retrieval, and peer device detection of media streams between wireless transmit receive units (WTRUs) in real-time via Inter-User Equipment Transfer (IUT) across any internet protocol (IP) based network. This framework allows for both collaborative and non-collaborative media sessions, media session transport and shared media session control under the same subscription or multiple subscriptions. | 08-11-2011 |
20110274041 | DYNAMIC PEER DISCOVERY AND INTER-UNIT TRANSFER (IUT) USING MOBILE INTERNET PROTOCOL (MIP) - Methods and systems for a mobile node of a communication network to use mobile internet protocol (MIP) to query a node, such as a home agent (HA) of the communication network to obtain information regarding other nodes that may be registered with the same node of the network, such as the HA, or nodes that may be registered with the same HoA. Also, a node of a communication network, such as a HA, may send to registered nodes of the communication network via MIP un-requested information regarding nodes that may be registered with the HA, or nodes that may be registered with the same HoA. A node of the communication network may initiate an inter-unit transfer (IUT) to one or more other nodes of the communication network using the information regarding nodes that may be registered with the HA or registered with the same HoA. | 11-10-2011 |
20110310824 | METHOD AND APPARATUS FOR INTER-USER DEVICE TRANSFER (IUT) IN A NETWORK BASED MOBILITY DOMAIN - A method and apparatus for performing Inter-User Equipment Transfer (IUT) across any internet protocol (IP) based network. This framework allows for preparation, execution and completion of data transfer at a target device through registration with a Local Mobility Anchor (LMA) and receipt of an IUT request. The target device receives and stores an IP address or a source device. The IP address is used to transmit session information. | 12-22-2011 |
20120084388 | INTER UE TRANSFER BETWEEN MOBILE INTERNET PROTOCOL CLIENTS - Mobile IP (MIP) protocol may be used to transfer a communication flow between nodes. An indication to transfer the communication flow is received at a first node, and the first node sends a communication flow transfer request via mobile internet protocol. The request is received by a network device. The network device forwards the request for delivery to the second node. The network device receives a response to the request originated from the second node via mobile internet protocol, and instructs a correspondence node to transfer the communication flow to the second node. Upon receiving a response indicating that the communication flow transfer request has been accepted, the first node terminates the communication flow at the first node. The second node resumes the transferred communication flow. | 04-05-2012 |
20120093062 | Inter-Unit Transfer Support Using Mobile Internet Protocol - A WTRU may receive a first a data flow from a source device such as a correspondence node and perform a seamless IUT such that the correspondent node is unaware that the flow has been transferred to a different WTRU. The WTRU may register with a first home agent, wherein the first home agent receives a plurality of messages addressed for a home address. The home agent may forward the messages to the WTRU at a first care-of-address. The WTRU may send a binding update to the first home agent. The binding update may comprise a second traffic selector and a second action. The second action may specify that a second message of the plurality of messages is to be forwarded to a different WTRU when the second message matches the second traffic selector. | 04-19-2012 |
20120110192 | LIGHT WEIGHT PROTOCOL AND AGENT IN A NETWORK COMMUNICATION - Systems and methods are provided for using a light weight protocol (LWP) and protocol agent in a network communication system. A protocol agent receives a message in LWP from an end node. The message in LWP is directed to a destination network node that uses a network protocol that the end node is incapable of supporting, such as Hypertext Transfer Protocol (HTTP), Real Time Streaming Protocol (RTSP), Session Initiation Protocol (SIP) or other network protocols. The protocol agent determines a network protocol to map the message to, and generates a message in the determined network protocol based on the received LWP message. The protocol agent then sends the generated message to the destination network node. | 05-03-2012 |
20120120845 | PEER DISCOVERY, TARGET SELECTION, AND FLOW REPLICATION FOR INTER USER EQUIPMENT TRANSFERS - Systems, methods, and apparatus are described herein for enabling the transfer of media flow to user equipment (UE) in a network using a mobile IP (MIP) protocol. The media flow may be transferred among UEs that are members of the same group of UEs. UEs, Home Agents (HAs), and/or Session Controllers (SCs) may be implemented in the network to maintain each group and/or transfer media flow between members of the group of UEs. The media flow may be replicated before being sent to the members of the group of UEs. UEs, HAs, SCs, REPLICATORs, and/or Authorization Entities (AEs) may be implemented in replicating media flows as described herein. | 05-17-2012 |
20120208502 | SYSTEMS AND METHODS FOR EXTENDED/ENHANCED LOGICAL INTERFACE BEHAVIOR - Systems, methods, and instrumentalities are disclosed to configure a mobile node. A mobile node may receive a configuration message. The configuration message may be received from an access network discovery and selection function (ANDSF), which may be part of an open mobile alliance device management (OMA DM) server. The configuration message may comprises a mobile node rule. The mobile node may change a configuration of the mobile node in accordance with the mobile node rule. The mobile node rule may indicate that the mobile node is to transmit uplink packets on a certain interface. The mobile node may transmit an uplink packet over the interface indicated by the mobile node rule. | 08-16-2012 |
20120230235 | GENERIC PACKET FILTERING - Embodiments contemplate one or more techniques for packet filtering. One or more embodiments may apply specific routing and/or forwarding rules on some or each packet when a device has one or more, or multiple, interfaces. Contemplated filtering techniques may be implemented in a module and/or without modifying an IP stack. The contemplated packet filtering techniques may apply to a terminal in uplink and/or downlink as well as to any network node. An incoming packet table may be created using 5-tuple, 6-tuple, and/or tags, among other mechanisms, to support incoming and/or outgoing packet filtering. | 09-13-2012 |
20120258674 | SESSION MANAGER AND SOURCE INTERNET PROTOCOL (IP) ADDRESS SELECTION - Embodiments contemplate one or more Session Manager and/or source IP address selection techniques. Embodiments contemplate that a session manager may establish a session in a wireless communication environment based on one or more policies specified by a policy manager. The session manager may also delete the session. For example, the session may be deleted in response to receipt of a request from an application. The session manager may store a session description for the session. The session manager may also perform source IP selection for a data plane. The session manager may also provide an MC transport with IP addresses for negotiating additional sub-flows. | 10-11-2012 |
20120271938 | Socket Application Program Interface (API) Extension - Embodiments contemplate one or more socket application program interface (API) extensions that may provide one or more Internet Protocol Address lists. Embodiments may include determining a state (or status) of one or more available Internet Protocol (IP) addresses. Further, embodiments may include communicating the state (or status) of the available Internet addresses to a Multi Connection Transport Protocol. | 10-25-2012 |
20120275323 | SCALABLE POLICY-CONTROLLED PACKET INSPECTION SYSTEMS AND METHODS FOR ADVANCED APPLICATION INTERFACE - Systems, methods, and instrumentalities are disclosed to determine quality of service information. A device, such as a user equipment (UE), may receive a policy. The policy may indicate a level of inspection relating to application identification for a session. The device may receive information associated with the session. For example, the information may include application provided information, packet data, operating system provided information, etc. The device may perform an inspection of the received information at the level indicated by the policy. The device may perform the inspection in order to identify an application associated with the session. | 11-01-2012 |
20130021968 | METHOD AND APPARATUS FOR BANDWIDTH AGGREGATION FOR IP FLOW - A method and apparatus for bandwidth aggregation for an Internet protocol (IP) flow are disclosed. A sender may split IP packets on a single IP flow, and transmit the IP packets to a receiver via at least two interfaces. The sender splitting the IP packets over multiple interfaces may not send any signaling to the receiver. Alternatively, the sender may send information to the receiver for configuring distribution of the IP packets over multiple interfaces. The information may be carried on a binding update message, a binding acknowledgement message, or a binding refresh request message. The IP packets may be split and transmitted by a logical interface that sits between an IP layer and a layer | 01-24-2013 |
20140153489 | Methods, Apparatus and Systems for Inter-Converged Gateway (ICGW) Communications - User equipment (UE) may include dual mode devices that enable two different radio access technologies (RATs) for connection to wireless communication networks. Recently, these RATs have been used for message splitting in which a message is split into two packet flows, for example, that may enable increased throughput to the (UE). Dynamic mobility management may be provided for the UE by allowing a converged gateway (CGW) to discover the UE. For example, the CGW may identify the UE in communication a first CGW that may be within a first subnet. The CGW may store the identity of the WTRU in the memory. The CGW may transmit the identity of the UE to a second CGW that may be in communication with a second subnet. | 06-05-2014 |
20140161055 | BANDWIDTH MANAGEMENT, AGGREGATION AND INTERNET PROTOCOL FLOW MOBILITY ACROSS MULTIPLE-ACCESS TECHNOLOGIES - Systems, apparatuses and methods for bandwidth management, aggregation and internet protocol (“IP”) flow mobility (“IFOM”) across multiple-access technologies are provided. Included is a method that includes selecting, from a packet data network (“PDN”) connection formed through a plurality of access systems communicatively coupled with a wireless transmit and/or receive unit (“WTRU”), an access system over which to transport a flow of internet protocol (“IP”) traffic to and/or from the WTRU. The method may also include sending, to the WTRU, a request to associate the flow of IP traffic with the selected access system. | 06-12-2014 |
20140177597 | METHOD AND APPARATUS FOR INTER-USER DEVICE TRANSFER (IUT) IN A NETWORK BASED MOBILITY DOMAIN - A method and apparatus for performing Inter-User Equipment Transfer (IUT) across any internet protocol (IP) based network. This framework allows for preparation, execution and completion of data transfer at a target device through registration with a Local Mobility Anchor (LMA) and receipt of an IUT request. The target device receives and stores an IP address or a source device. The IP address is used to transmit session information. | 06-26-2014 |
20140219242 | STABLE LOCAL BREAKOUT CONCEPT AND USAGE - Systems and methods are provided for routing internet protocol (IP) traffic flows when connected to a mobile network and a local network. A wireless transmit and receive unit (WTRU) determines whether to offload an IP traffic flow from the mobile network to the local network based on the destination address of the IP traffic flow. When the destination address is local, the WTRU routes the IP traffic flow through local network. The WTRU determines whether to offload IP traffic to the local network based on the stability state of the local network When the local network connection is sufficiently stable for the application associated with the IP traffic, the IP traffic is offloaded to the local network by selecting the local IP address as the source IP address. | 08-07-2014 |
20140286228 | METHOD FOR MULTICAST MOBILITY - A method for a proxy mobile internet protocol (PMIP) supporting a mobile access gateway (MAG) is described. The method includes receiving a first packet with a first internet protocol (IP) address from a local mobility anchor (LMA). The LMA is a hybrid mobility anchor used for both multicast and unicast traffic. The method also includes receiving a second packet with a second IP address from the LMA, receiving a third packet from the LMA, and communicating multicast information to the LMA via an aggregated multicast tunnel. | 09-25-2014 |
20140321328 | Methods For IP Mobility Management - Methods, apparatus and systems may support distributed and dynamic mobility management features, including for nodes, functions and interfaces. A distributed gateway (D-GW), which may be a logical entity, may implement functionality of a PDN gateway (PGW) along with additional functionality that may support distributed mobility management (DMM). Additionally, methods, apparatus, and systems may support detecting and discovering capabilities that may be used to support dynamic IP mobility features on mobile node and networks. | 10-30-2014 |