Patent application number | Description | Published |
20140206348 | NETWORK ASSISTED DEVICE-TO-DEVICE DISCOVERY FOR PEER-TO-PEER APPLICATIONS - The techniques introduced here provide for network assisted device-to-device communication for peer-to-peer applications. The techniques include registering a user's peer-to-peer application identifier with a peer-to-peer application server, registering a peer-to-peer application with a device-to-device server, sending a peer-to-peer service request to the peer-to-peer application server, and receiving network assistance in discovering a peer with the desired P2P content/service and establishing a device-to-device communication arrangement for exchange of peer-to-peer services. | 07-24-2014 |
20150103664 | REPORTING OF USER PLANE CONGESTION - Technology for as radio access network (RAN) node that is operable to report user plane congestion (UPCON) is disclosed. The RAN node may include computer circuitry configured to receive, from a Core Network (CN), an information element (IE) including UPCON related Policy and Control Charging (PCC) information. The RAN node may identify a location of an UPCON event, at the RAN node, based on an UPCON event trigger included in the UPCON related PCC information. The RAN node may report Radio Access Network Congestion Information (RCI) about the UPCON event to one or more network elements in the CN. | 04-16-2015 |
20150326302 | LAWFUL INTERCEPT REPORTING IN WIRELESS NETWORKS USING PUBLIC SAFETY RELAYS - A relay device assists in enabling lawful intercept (LI) by reporting, to a LI entity associated with the cellular network, authenticated identities of remote UEs (such as remote UEs connected via proximity services) and identification information that may allow the LI entity to monitor traffic (and/or control statistics related to the traffic) associated with the remote UEs. The authentication of the remote UEs may be performed using a technique that does not require involvement of the cellular network. | 11-12-2015 |
20150350953 | RADIO RESOURCE CONTROL (RRC) PROTOCOL FOR CELL SELECTION AND TRAFFIC STEERING FOR INTEGRATED WLAN/3GPP RADIO ACCESS TECHNOLOGIES - An integrated WLAN/WWAN Radio Access Technology (RAT) architecture is described in which signaling used to control the integration of the WLAN/WWAN architecture is performed over the Radio Resource Control (RRC) plane. The integrated architecture may allow for User Equipment (UE) assistance in cell selection and traffic steering. In particular, UE-assisted RRC signaling is described for managing inter-RAT session transfers and secondary cell (SCell) selection. | 12-03-2015 |
20150350988 | RADIO RESOURCE CONTROL (RRC) PROTOCOL FOR INTEGRATED WLAN/3GPP RADIO ACCESS TECHNOLOGIES - An integrated WLAN/WWAN Radio Access Technology (RAT) architecture is described in which signaling used to control the integration of the WLAN/WWAN architecture is performed over the Radio Resource Control (RRC) plane. The integrated architecture may provide a network-controlled framework for performing traffic steering and radio resource management. | 12-03-2015 |
20150350989 | INTERWORKING/CO-EXISTENCE OF INTEGRATED WLAN/3GPP RAT ARCHITECTURES WITH LEGACY WLAN/3GPP INTERWORKING SOLUTIONS - An integrated WLAN/WWAN architecture is described, in which signaling used to control the integration of the WLAN/WWAN architecture is performed over the Radio Resource Control (“RRC”) plane. The integrated architecture may provide a network-controlled framework for performing traffic steering and radio resource management. Additionally, according to the disclosure provided herein, the integrated architecture may interwork with legacy systems (e.g., architectures that do not support the integrated WLAN/WWAN architecture). | 12-03-2015 |
20150351079 | IN-BAND CONTROL SIGNALING FOR INTEGRATED WLAN/3GPP RAT ARCHITECTURES - An integrated WLAN/WWAN Radio Access Technology (“RAT”) architecture is described, in which signaling used to control the integration of the WLAN/WWAN architecture is performed over the Packet Data Convergence Protocol (“PDCP”) layer, and/or at other layers (e.g., a layer between the PDCP layer and the Internet Protocol (“IP”) layer). When involving the PDCP layer, non-standard PDCP packets, including variable length PDCP packets, may be used. The integrated architecture may provide a network controlled framework for performing traffic steering and radio resource management. | 12-03-2015 |
20150359023 | TARGETED GROUP-BASED DISCOVERY FOR WIRELESS COMMUNICATION DEVICES - Techniques described herein may provide for device discovery of direct communication paths, to enable direct mode communication, between communication devices. The discovery of the communication paths may be based on identifiers that may be defined at the application level and included in device discovery requests. In one implementation, the identifiers may be SIP-URIs (session initiation protocol (SIP)-uniform resource identifiers (URIs)). | 12-10-2015 |
20150359033 | PATH SWITCHING PROCEDURE FOR DEVICE-TO-DEVICE COMMUNICATION - Session continuity may be maintained when communication devices transition from communicating through network infrastructure (e.g., through a cellular network) to direct mode communications (e.g., a communication path directly between two communication devices). For example, in switching from an infrastructure mode communication path to a direct mode communication path, a method may include: determining a public-facing address corresponding to the infrastructure path; replacing, for a packet that is to be transmitted over the direct mode communication path to a second communication device, a source address field of the packet with the determined public-facing address; and encapsulating the packet with source and destination address fields corresponding to the first and second communication device through the direct mode communication path respectively. | 12-10-2015 |