| Patent application number | Description | Published |
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| 20090064232 | PORTABLE MEDIA PROCESSING UNIT IN A MEDIA EXCHANGE NETWORK - A method for communication is disclosed and may include storing media and meta-data associated with the stored media. The storing may occur at a first location associated with a first communication device. A channel guide including representations of the stored media may be presented, based on the meta-data associated with the stored media, on a television in a second location. The presenting may occur when the first communication device is communicatively coupled to a second communication device at the second location. In response to receiving a selection via the presented channel guide, at least one media file corresponding to the received selection may be displayed based on the meta-data associated with stored media, on the television and/or a media player in the second location. The first communication device may be a media processing unit. | 03-05-2009 |
| 20090320111 | SECURE LEGACY MEDIA PERIPHERAL ASSOCIATION WITH AUTHENTICATION IN A MEDIA EXCHANGE NETWORK - Aspects for secure access and communication of information in a distributed media network may include detecting when a legacy media peripheral is connected to a PC and/or a media processing system on the distributed media network. One or more identifiers associated with the legacy media peripheral may be established and utilized to facilitate communication of the legacy media peripheral over the distributed media network. At least one legacy media peripheral identifier and at least one identifier of a user utilizing the legacy media peripheral may be requested. The legacy media peripheral identifier may be a serial number of the legacy media peripheral, while the user identifier may be a user password and/or a user name. Media peripheral association software may be executed on the PC and/or the media processing system and utilized for media peripheral association and authentication in accordance with various embodiments of the invention. | 12-24-2009 |
| 20100049981 | SECURE MEDIA PERIPHERAL ASSOCIATION IN A MEDIA EXCHANGE NETWORK - A method for establishing secure access to a media peripheral in a home via a node in a communication network may include acquiring by the node, security data associated with the media peripheral. The method may include searching by the node, for a previously acquired security data associated with a location of previous operation of the media peripheral. The method may further include communicating between the node and the media peripheral, information associated with the media peripheral, while the media peripheral is located in the home, when the previously acquired security data is not found. The node may utilize the acquired security data associated with the media peripheral and the previously acquired security data to facilitate secure communication between the media peripheral in the home and the communication network, when the previously acquired security data is found. | 02-25-2010 |
| 20110072155 | SECURE ANONYMITY IN A MEDIA EXCHANGE NETWORK - A method for communicating of information in a communication network is disclosed and includes receiving media containing a security code from a first communication device at a third communication device. The security code is acquired by the first communication device from a second communication device. The received media may be routed to the second communication device based on an IP address of the second communication device. The IP address of the second communication device may correspond to the security code. The security code may be translated to the IP address of the second communication device. The security code may be a pin code. A duration for which the security code is valid may be limited to at least one of time and a number of uses. | 03-24-2011 |
| Patent application number | Description | Published |
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| 20100127924 | ACCESSING NAVIGATION INFORMATION VIA A GLOBAL POSITIONING GROUP SUPPORT SERVER - A client device transmits a GNSS address to gain navigation information such as map data from a global positioning group support server. The global positioning group support server may provide navigation information of global positioning groups in the vicinity of the client device based on the received GNSS address. The GNSS address of the client device may be an inherent GNSS address or a GNSS address of a neighboring client device. Client devices are registered and divided into global positioning groups at a global positioning group support server based on corresponding GNSS addresses. A particular client device may be added or removed to or from a given global positioning group. Uni- and bi-directional association tracking within a determined time window is enabled based on corresponding GNSS addresses. Phantom GNSS moving is enabled via the association tracking. | 05-27-2010 |
| 20100128601 | CLIENT QoS BASED CONNECTION SESSION JOGGING - Aspects of a method and system for a client QoS based connection session jogging are provided. While receiving a service over a particular delivery route, a user of a user device is provided with the capability to request an alternate route to continue to deliver the service via a user interface operation. The user device generates a connection handover (HO) request and transmits the request to a network management (NM) server. The NM server determines the alternate route and continues the service over the determined alternate route. The NM server supports both unsolicited and solicited connection HO request. A connection session profile associated with the particular delivery route is updated based on the determined alternate route information. The service is continued over the alternate route with the updated connection session profile. A connection HO request indicates a desired QoS from the user of the user device for the received service. | 05-27-2010 |
| 20100131194 | MAP DATA MANAGEMENT USING ROAD GHOSTING CHARACTERISTICS - Aspects of a method and system for map data management using road ghosting characteristics are provided. A mobile device transmits a map request to a mapping service server for a map view. Upon the receipt of the map request from the mobile device, the mapping service server creates a ghost map based on road ghost characteristic information gathered from mobile devices associated with the mapping service server. The road ghost characteristic information is overlaid on geographical locations to identify ghost pathways and road supplemental information. The characteristics associated with the identified ghost pathways and road supplemental information is merged into metadata. The ghost map is generated by correlating the metadata with geographic locations of interests of said mobile device. The ghost map is delivered to the mobile and presented via the user interface to users of the mobile device, accordingly. | 05-27-2010 |
| 20100131586 | ACTIVITY OVERLAID MAPPING SERVICES - Aspects of a method and system for activity overlaid mapping services are provided. A subscriber transmits a map request to a mapping service server connected to a data communication network. Upon the receipt of the map request from the subscriber, the mapping service server create enhanced map based on subscriber activity information collected from a plurality of subscribers associated with the mapping service server. The enhanced map is generated by correlating the collected subscriber activity information of the plurality of subscribers to geographic locations of interest indicated by the map request. The created enhanced map is delivered to the subscriber device. Upon the receiving the enhanced map, the subscriber device presents location information associated with the received enhanced map to users via a user interface in a preferred format. A level of subscriber activity information sharing is determined by each subscriber. | 05-27-2010 |
| 20100242261 | COMBINED SATELLITE AND BROADBAND ACCESS ANTENNAS USING COMMON INFRASTRUCTURE - A method of installing multiple over-the-air antennas is disclosed. The method includes the steps of mounting a satellite antenna to a installation surface, such that the mounting allows the satellite antenna to be aimed at a satellite, attaching a broadband access antenna to one of the installation surface and a portion of the satellite antenna, such that the attaching allows the broadband access antenna to be aimed at a broadband access source, connecting first wiring from the broadband access antenna to a first downconverter and second wiring from the satellite antenna to a second downconverter, providing outputs of the first and second downconverters to a cable in communication with at least a satellite receiver and positioning, on at least a coarse scale, the satellite antenna and the broadband access antenna such that they are approximately pointed at the satellite and the broadband access source, respectively. | 09-30-2010 |
| 20100248727 | COMMUNICATION SESSION SOFT HANDOVER - While receiving content for a service at a user device via a particular delivery route, detecting a request for delivery of subsequent content for the service via a secure alternate delivery route. The user device may concurrently receive delivery of the subsequent content via the particular delivery route and the secure alternate delivery route. The detected request may be generated based on QoS associated with the received content of the service. The detected request may be received from a communication network and may comprise identification information for the particular delivery route. The secure alternate delivery route may be determined based on the identification information for the particular delivery route. A communication session profile may be generated and/or determined based on the secure alternate delivery route. The communication session profile is utilized for the requested delivery of the further content via the secure alternate delivery route. | 09-30-2010 |
| 20100250747 | ADAPTIVE MULTIPLE PATHWAY SESSION SETUP TO SUPPORT QoS SERVICES - A user device is operable to request setup of one or more serving routes to be utilized for delivering content to the user device. The user device is operable to receive the delivered content via the one or more serving routes and/or one or more auxiliary routes based on the request. The serving routes and the auxiliary routes are determined based on a provisioning profile for the user device. The provisioning profile comprises preferred service types, desired QoS for one or more services, client account information, and/or client billing and credit verification information. A connection or communication session is established dynamically based on demand, from the user device and/or a supporting network, for each of the determined one or more auxiliary routes. The user device is operable to receive the delivered content via the determined auxiliary routes in the established connection sessions. | 09-30-2010 |
