Patent application number | Description | Published |
20090232019 | PROVIDING MULTIPLE LEVELS OF SERVICE FOR WIRELESS COMMUNICATION - Local breakout is provided by one or more nodes (e.g., a local access point and/or a local gateway) in a wireless network to facilitate access to one or more local services. In conjunction with local breakout, multiple IP points of presence relating to different levels of service may be provided for an access point. For example, one point of presence may relate to a local service while another point of presence may relate to a core network service. IP point of presence may be identified for an over-the-air packet to indicate a termination point for the packet. Also, different mobility management functionality may be provided at different nodes in a system whereby mobility management for a given node may be provided by a different node for different types of traffic. Thus, an access terminal may support multiple NAS instances. In addition, different types of paging may be provided for different types of traffic. Furthermore, messages associated with one protocol may be carried over another protocol to reduce complexity in the system. | 09-17-2009 |
20090238099 | DYNAMIC HOME NETWORK ASSIGNMENT - A method for wireless communications is provided. The method includes establishing a connection with a gateway device in a wireless network. This includes receiving a configuration packet from the gateway device that identifies home mobility options. The method processes at least one home network address from the home mobility options. The method also includes receiving or processing a home network prefix from the home mobility options. | 09-24-2009 |
20090300207 | PCC ENHANCEMENTS FOR CIPHERING SUPPORT - Systems and methodologies are described that facilitate tunneling within wireless communication systems. Flow identification information is dynamically generated for data flows within a communication system. This flow identification information assists in determining appropriate flow specific policies to be applied with respective data flows. The flow identification information along with the flow specific policies can be communicated to an access mechanism which transmits the data flows in accordance with the flow specific policies. Different aspects relate to using source addresses in combination with the flow identification information for identifying different IP flows originating at a plurality of sources. The flow identification information also facilitates in verifying if different flows are transmitted in accordance with appropriate rules. The generated data flows are transmitted with respective flow identification information in order to facilitate the verification process. | 12-03-2009 |
20090303881 | METHODS AND APPARATUS FOR NETWORK CONTROLLED MOBILE IP FLOW MOVEMENT - Methods and apparatus for network controlled mobile IP flow movement. An infrastructure node, such as a home agent, signals a mapping between care-of-addresses (CoAs) and flows to be transmitted from a mobile device in uplink communications. The CoA associated with each flow is determined from network, device, and/or flow information. A mobile node or mobile gateway receives the mapping and updates its local policy information. When a selected flow is to be transmitted in an uplink transmission, the local policy information is used to determine the CoA associated with the selected flow. The CoA is then used to determine an access network (or access path) on which the uplink transmission of the selected flow is to occur. | 12-10-2009 |
20090303966 | METHOD AND APPARATUS FOR INTER-NETWORK HANDOFF - Systems and methodologies are described that facilitate inter-network handoff in a wireless communication system. Various aspects described herein provide for handoff techniques that enable a target system to be prepared by an access terminal via a source system in order to minimize specific changes required to source system and/or target system. Techniques are described herein in which the protocols of a source system can be utilized with an interworking unit to tunnel signaling messages which are in a format understood by a target network. | 12-10-2009 |
20100034083 | METHOD AND APPARATUS FOR PACKET DIFFERENTIATION IN A WIRELESS COMMUNICATION SYSTEM - Systems and methodologies are described herein that facilitate efficient packet differentiation and forwarding in a wireless communication system. As described herein, identifiers or tags (e.g., corresponding to radio bearers, logical channels, Internet Protocol (IP) addresses, etc.) can be applied to respective packets based on their destinations as determined by traffic flow templates (TFTs) associated with the packets. Further, techniques are provided for establishing radio bearers, IP addresses, and/or other resources for transmission of packets associated with respective TFTs in a manner irrespective of associated quality of service (QoS) policies for the TFTs. Upon an establishment of resources, techniques are described herein for tagging packets with resources associated with TFTs corresponding to the packets to facilitate forwarding of respective packets to their intended destinations with lowered required processing cost. Additionally, techniques are described herein for offloading packet analysis and/or forwarding functionality from a terminal to a device tethered to the terminal. | 02-11-2010 |
20100046418 | RELAY ARCHITECTURE FRAMEWORK - Systems and methodologies are described that facilitate providing relay nodes in wireless networks. In particular, cluster nodes, which can be regular eNBs, can provide wireless network access to the relay nodes over a backhaul link, and the relay nodes can offer access to devices or other relay nodes to expand network coverage and/or provide increased throughput. User equipment (UE) relays can function as UEs according to a cluster node such that UE relays receive network addressing and can tunnel communications through the cluster node using the backhaul link. Cell relays can function as a cell of the cluster node, such that transport layer communications terminate at the cluster node. In this regard, cell relays can define transport layers to use in communicating with the cluster nodes over the backhaul and with other devices over a provided access link. | 02-25-2010 |
20100113010 | REPRIORITIZATION OF WIRELESS NETWORKS FOR RESELECTION TO SUPPORT VOICE CALL - Techniques for originating a voice call by a UE after performing reselection with reprioritization are described. The UE may operate in an idle mode and may camp on a first wireless network of a first radio access technology (RAT), which may not support voice service. The first wireless network may have the highest priority among all wireless networks detected by the UE. The UE may receive an indication to originate a voice call. The UE may then perform reselection from the first wireless network to a second wireless network of a second RAT by modifying the priorities of the frequencies of the first wireless network and/or the second wireless network. The UE may then originate the voice call with the second wireless network, instead of the first wireless network, in order to avoid having to perform circuit-switched (CS) fallback from the first wireless network to the second wireless network. | 05-06-2010 |
20100142373 | PERFORMING PACKET FLOW OPTIMIZATION WITH POLICY AND CHARGING CONTROL - Policy and charging control (PCC) is a framework within a Third or Fourth Generation (3G/4G) network that allows operators to authorize and enforce policy, Quality of Service (QoS), and charging control over communication sessions by mobile devices. PCC mechanism is used to determine the type QoS based on a request received from a User Equipment (UE) or network. PCC is one important element within System Architecture Evolution (SAE) architecture to allow the network to perform policy and charging control. A mechanism is provided so that PCC can allow packet flow optimization. Thereby, the network can detect Internet Protocol (IP) flows based on operator defined criteria and can perform policy and QoS control. | 06-10-2010 |
20100205099 | SYSTEM AND METHODS TO FACILITATE CONNECTIONS TO ACCESS NETWORKS - The described aspects relate to methods and systems for enabling connectivity agreements between access terminals and access networks. The connectivity agreements may be established through user-side negotiations or third party negotiations for a connection with an access network. In addition, the described aspects relate to methods and systems for paying access networks for a connection. | 08-12-2010 |
20120158829 | METHODS AND APPARATUS FOR PROVIDING OR RECEIVING DATA CONNECTIVITY - Methods and apparatus for providing or receiving data connectivity with an access network may include receiving or transmitting a request from a wireless device for data connectivity to a destination. The destination may be associated with use of an application. The methods and apparatus may further include determining whether the destination is a sponsored destination. The methods and apparatus may further include providing or receiving sponsored data connectivity via the access network from the wireless device to the sponsored destination for use of the application on the wireless device if the destination is a sponsored destination. | 06-21-2012 |
20130064082 | PERFORMING PACKET FLOW OPTIMIZATION WITH POLICY AND CHARGING CONTROL - Policy and charging control (PCC) is a framework within a Third or Fourth Generation (3G/4G) network that allows operators to authorize and enforce policy, Quality of Service (QoS), and charging control over communication sessions by mobile devices. PCC mechanism is used to determine the type QoS based on a request received from a User Equipment (UE) or network. PCC is one important element within System Architecture Evolution (SAE) architecture to allow the network to perform policy and charging control. A mechanism is provided so that PCC can allow packet flow optimization. Thereby, the network can detect Internet Protocol (IP) flows based on operator defined criteria and can perform policy and QoS control. | 03-14-2013 |
20130107702 | PROVIDING MULTIPLE LEVELS OF SERVICE FOR WIRELESS COMMUNICATION | 05-02-2013 |