Abstract:
An approach for enabling load efficient delivery of updates and other content to mobile devices is described. A device management platform determines to communicate with a mobile device configured to operate over a cellular network and a local area network, wherein the local area network includes a customer premise gateway. The device management platform also initiates establishment of a multicast session with the mobile device via the customer premise gateway and over the local area network.
Abstract:
A system may receive a first list of users of a provider network. For each of the first list of users, the system may obtain data pertaining to the user's categories of interest from a social media system; infer video programs based on the data; infer a list of one or more video channels based on the video programs; score the one or more video channels; rank the list of one or more video channels based on the scores; and recommend the ranked list of one or more video channels.
Abstract:
A system may receive a first list of users of a provider network. For each of the first list of users, the system may obtain data pertaining to the user's categories of interest from a social media system; infer video programs based on the data; infer a list of one or more video channels based on the video programs; score the one or more video channels; rank the list of one or more video channels based on the scores; and recommend the ranked list of one or more video channels.
Abstract:
One or more servers may receive, from a first server, a first list of timeslots; receive, from a second server, a second list of timeslots; store the first list of timeslots and the second list of timeslots to form a shared list of timeslots; receive an update to the shared list of timeslots by the first server or by the second server; store the update to the shared list of timeslots; receive a first schedule from the first server; and receive a second schedule from the second server. The first server may generate the first schedule and the second server may generate the second schedule based on information stored by the shared list of timeslots. The one or more servers may provide a particular content file to a user device in accordance with information associated with the first schedule or the second schedule.
Abstract:
The present disclosure relates to systems and methods for providing bandwidth-on-demand telecommunications services over next-generation optical transport networks (NG-OTN). One embodiment of a system providing bandwidth-on-demand services includes a next-generation optical transport network (NG-OTN) having an intelligent control plane (ICP) and new-generation synchronous optical network (NG-SONET) capabilities. A next-generation operation support subsystem (NG-OSS) is communicatively coupled to the NG-OTN. The NG-OTN and the NG-OSS are configured to provide the bandwidth-on-demand services.
Abstract:
A device may be configured to store interactive program guide (IPG) data for generating an IPG. The IPG data may include information related to a media content service for providing media content and including information related to a home automation service for managing a home device. The device may receive input information from a media client device that causes display of the IPG. The input information may indicate an input related to the home device. The device may generate a part of the IPG related to the home automation service based on the input information and a part of the IPG data. The device may obtain home device information from a management server based on the input information. The device may provide the home device information and the part of the IPG to the media client device for display.
Abstract:
The present disclosure relates to systems and methods for providing bandwidth-on-demand telecommunications services over next-generation optical transport networks (NG-OTN). One embodiment of a system providing bandwidth-on-demand services includes a next-generation optical transport network (NG-OTN) having an intelligent control plane (ICP) and new-generation synchronous optical network (NG-SONET) capabilities. A next-generation operation support subsystem (NG-OSS) is communicatively coupled to the NG-OTN. The NG-OTN and the NG-OSS are configured to provide the bandwidth-on-demand services.
Abstract:
A device may be configured to store interactive program guide (IPG) data for generating an IPG. The IPG data may include information related to a media content service for providing media content and including information related to a home automation service for managing a home device. The device may receive input information from a media client device that causes display of the IPG. The input information may indicate an input related to the home device. The device may generate a part of the IPG related to the home automation service based on the input information and a part of the IPG data. The device may obtain home device information from a management server based on the input information. The device may provide the home device information and the part of the IPG to the media client device for display.
Abstract:
Techniques are described herein in which a mobile device may enable cloud gaming. In one implementation, the mobile device may receive an information stream, from a remote game server, relating to an online game. The method may further include receiving user input relating to the online game; transmitting the user input to the game server; and screencasting, to a local display device, a video stream that is based on the information stream, the video stream representing a display corresponding to the online game.
Abstract:
A local router for a home network pairs with a mobile device via a local network connection. The local router is also connected to a wide area network. The local router receives, from the mobile device and over the local network connection, configuration settings for a backup path for the wide area network. The backup path includes the local network connection and a mobile broadband connection using the mobile device. The local router detects an interruption with the local router's connection to the managed wide area network and forwards, based on the detecting, critical traffic from the home network via the backup path.