Abstract:
Systems and methods for searching for lost moving objects such as children are disclosed. In some embodiments, the systems and methods initiate an autonomous, expanding electronic search by emitting a search activation signal from a search initiation device. The search activation signal may include the target tag identifier of a target tag conveyed by the moving object. Search devices detecting the target tag may generate a hit signal, which may be used to determine the location of the target tag. In some instances, focused human searching for the moving object may be initiated based on this determined location, and/or on location information included in one or more hit signals.
Abstract:
Methods and systems may include logic to receive a query for one or more channel suggestions, and search a database in response to the query, wherein the database includes keyword data associated with a plurality of display devices. The logic may also generate a list of channel suggestions based on the search.
Abstract:
Methods and systems may involve storing device-specific user preference data to a local device and receiving a real-time request from a remote device. One or more user coefficients may be used to filter the device-specific user preference data in response to the request. In one example, the user preference data includes keyword data and the filtered keyword data is used to discover and present information to the user via the remote device.
Abstract:
Systems and methods for searching for lost moving objects such as children are disclosed. In some embodiments, the systems and methods initiate an autonomous, expanding electronic search by emitting a search activation signal from a search initiation device. The search activation signal may include the target tag identifier of a target tag conveyed by the moving object. Search devices detecting the target tag may generate a hit signal, which may be used to determine the location of the target tag. In some instances, focused human searching for the moving object may be initiated based on this determined location, and/or on location information included in one or more hit signals.
Abstract:
In one embodiment, a method includes receiving, in a mobile station of a terminating party, an incoming call and an identifier of a service provider of an initiating party of the incoming call, and displaying information corresponding to the initiating party service provider on a display of the mobile station. Other embodiments are described and claimed.
Abstract:
A device and method for predictively precaching content on a mobile communication device includes monitoring numerous data sources for contextual data on the activities of the user. The mobile communication device predicts network connectivity outages and affected applications using the contextual data. The mobile communication device notifies the affected applications of the predicted network connectivity outage, and in response the affected applications precache suitable content. The affected applications may employ several precaching strategies in response to the notification, such as downloading content from a remote content server, adjusting content streaming, or adjusting content buffering prior to the predicted network connectivity outage. During the network outage, application service is provided using the precached content. Such precaching may also be accomplished using a local caching proxy server.
Abstract:
Various embodiments are generally directed to cooperation among networked devices to obtain and use a multiple-frame screenshot. In one embodiment, an apparatus comprises a processor circuit executing a sequence causing the processor circuit to receive a signal conveying a context data; retrieve an aspect of a current context of the apparatus; compare the aspect to the context data; determine whether a context defined as appropriate exists to engage in interactions with one or more other computing devices through a network based on the comparison, the interactions comprising providing a network service to the one or more other computing devices; and engage in the interactions with one or more computing devices through the network when the appropriate context to engage in the interactions exists. Other embodiments are described and claimed herein.
Abstract:
Systems and methods for dynamically creating collaborative teams and managing collaborative work of a team are generally disclosed herein. One example embodiment includes the dynamic creation of a collaborative team by creating an association between team members via a managing module. The managing module may be capable of managing, among other things, team members on a team, tasks and goals of each member of the team, as well as documentation associated with the team. In some embodiments, the managing module may use a chat or messaging protocol to manage collaborative modifications to documents of the team.
Abstract:
Methods and systems may involve receiving a real-time keyword associated with media content, and identifying modifier data associated with a user that encounters the media content. In addition, the real-time keyword and the modifier data may be transmitted to an advertising service, which may select a topic-relevant and user-specific advertisement based on the real-time keyword and the modifier data.
Abstract:
Systems and methods for dynamically creating collaborative teams and managing collaborative work of a team are generally disclosed herein. One example embodiment includes the dynamic creation of a collaborative team by creating an association between team members via a managing module. The managing module may be capable of managing, among other things, team members on a team, tasks and goals of each member of the team, as well as documentation associated with the team. In some embodiments, the managing module may use a chat or messaging protocol to manage collaborative modifications to documents of the team.