Patent application number | Description | Published |
20140040504 | ESTABLISHING APPLICATION-BASED ROUTING POLICIES IN MULTI-MODE USER EQUIPMENT - Techniques for establishing and implementing application-based routing policies for multi-mode wireless communication devices such as a user equipment (UE) are generally described herein. In some examples, information particular to the profile and platform configuration of the UE is communicated to an Access Network Discovery Function (ANDSF) server. The ANDSF server may provide an inter-system routing policy (ISRP) to handle appropriate network offloading actions for the particular application and device configuration. In some examples, the ISRP may be specific to flow-based or non-seamless based traffic offloading from certain software applications. The techniques described herein may be propagated from the ANDSF server and implemented in a variety of multi-mode UE mobile computing devices in connection with offloading policies established in a 3GPP Long Term Evolution/Long Term Evolution-Advanced (LTE/LTE-A) Evolved Packet Core (EPC) network architecture. | 02-06-2014 |
20140050086 | CONTROL AND DATA PLANE SOLUTIONS FOR CARRIER-AGGREGATION BASED WLAN OFFLOAD - Systems and methods for controlling data traffic offload to a WLAN (e.g., a Wi-Fi network) from a WWAN (e.g., a 4G LTE network) are generally disclosed herein. One embodiment includes data traffic offload techniques managed by a Radio Resource Control (RRC) in a networked device including offloading data at the IP, PDCP, RLC, or MAC layers; another embodiment includes data traffic offload techniques managed by a MAC Scheduler with RRC control. Configurations for multimode user equipment (UE) and multimode base stations are also described herein, including configurations for implementing a Multiple Radio Access Technology (Multi-RAT) aggregation function to offload data from a WWAN to a WLAN and transmit the data via the WLAN using a Layer 2 transport. | 02-20-2014 |
20140101726 | TRUSTED WLAN CONNECTIVITY TO 3GPP EVOLVED PACKET CORE - Systems, devices, and configurations to implement trusted connections within wireless networks and associated devices and systems are generally disclosed herein. In some examples, a wireless local area network (WLAN) may be attached to a 3GPP evolved packet core (EPC) as a trusted access network, without use of an evolved packet data gateway (ePDG) and overhead from related tunneling and encryption. Information to create the trusted attachment between a mobile device and a WLAN may be exchanged using Access Network Query Protocol (ANQP) extensions defined by IEEE standard 802.11u-2011, or using other protocols or standards such as DHCP or EAP. A trusted WLAN container with defined data structure fields may be transferred in the ANQP elements to exchange information used in the establishment and operation of the trusted attachment. | 04-10-2014 |
20140185597 | SECURE ON-LINE SIGNUP AND PROVISIONING OF WIRELESS DEVICES - Embodiments of a mobile device and method for secure online sign-up and provisioning of credentials for Wi-Fi hotspots are generally described herein. In some embodiments, provisioning occurs using a service set identifier (SSID) to associate with a hotspot and retrieve a virtual LAN (VLAN) identifier. The VLAN identifier is used to complete the signup and provisioning process. In some embodiments, a hotspot may implement a primary SSID and a dependent SSID. The mobile device associates with the hotspot using the dependent SSID to perform the secure online signup and provisioning process. Once credentials are obtained using the signup and provisioning process, the device can connect to the hotspot using the primary SSID and the already provisioned credentials. The provisioned credentials may include certificates, username/password, or SIM-type credentials. | 07-03-2014 |
20140185598 | BROADCAST BASED DISCOVERY OF WI-FI NETWORKS, DEVICES AND SERVICES - Embodiments reduce the time and energy expended to establish an initial link to a network. Some embodiments use either active or passive scans to discover available access points and then use a broadcast or multicast Generic Advertisement Service (GAS) Request message to identify access points providing requested services. Other embodiments use a broadcast or multicast GAS Request message to identify access points or mobile devices providing requested services without first scanning for access points. Only access points or mobile devices providing requested services need to respond to the GAS request message. Duplicate messages received by multiple access points coupled to the same network can be filtered so only one message is received and responded to. | 07-03-2014 |
20140187252 | DISTRIBUTED POLICY ARCHITECTURE - A mobile device may select between multiple networks in order to offload network traffic from one network to another. Policies under which network selection happens are established by network operators. A hierarchy of policy servers are established where a central policy server with policies established by a network operator can delegate authority for network switching to a local policy server with policies established by the same or a different network operator. The central policy server can establish criteria under which network switching or network selection is delegated to a local server. Policies from the local policy server can include information about local network conditions. A mobile device can use the policies from the central server and local server to select a network. | 07-03-2014 |
20150050942 | DISTRIBUTED POLICY ARCHITECTURE - A mobile device may select between multiple networks in order to offload network traffic from one network to another. Policies under which network selection happens are established by network operators. A hierarchy of policy servers are established where a central policy server with policies established by a network operator can delegate authority for network switching to a local policy server with policies established by the same or a different network operator. The central policy server can establish criteria under which network switching or network selection is delegated to a local server. Policies from the local policy server can include information about local network conditions. A mobile device can use the policies from the central server and local server to select a network. | 02-19-2015 |
20150110096 | SECURE ON-LINE SIGNUP AND PROVISIONING OF WIRELESS DEVICES - Embodiments of a mobile device and method for secure online sign-up and provisioning of credentials for Wi-Fi hotspots are generally described herein. In some embodiments, provisioning occurs using a service set identifier (SSID) to associate with a hotspot and retrieve a virtual LAN (VLAN) identifier. The VLAN identifier is used to complete the signup and provisioning process. In some embodiments, a hotspot may implement a primary SSID and a dependent SSID. The mobile device associates with the hotspot using the dependent SSID to perform the secure online signup and provisioning process. Once credentials are obtained using the signup and provisioning process, the device can connect to the hotspot using the primary SSID and the already provisioned credentials. The provisioned credentials may include certificates, username/password, or SIM-type credentials. | 04-23-2015 |