Patent application number | Description | Published |
20090196173 | Management of a Wireless Network - The disclosure describes a system for active channel management in a wireless network. The system may include spectrum monitoring in order to determine channel usage within a wireless network and/or to provide a projected transmission quality for each available channel. Another aspect of the system concerns allowing nodes in a wireless network to exchange spectrum usage data. The system may include renegotiation and handover of data transmission between channels and/or different wireless technologies. | 08-06-2009 |
20090296718 | Device Virtualization - Methods and apparatus for device virtualization and for communication between network devices are described. In one example, all devices on a first Local Area Network (LAN | 12-03-2009 |
20100017602 | Ad-Hoc Trust Establishment Using Visual Verification - Methods for ad-hoc trust establishment using visual verification are described. In a first embodiment, a visual representation of a shared data is generated on two or more devices and the visual representations generated can be visually compared by a user. This method can be used to verify that the correct devices are involved in a negotiation, when pre-existing trust relationships do not exist between the devices. The visual representation may, for example, comprise a picture with a number of different elements, each representing a part of the shared data. In another embodiment, a method of secure key exchange is described in which, before sharing the keys, the parties exchange information which encapsulates the key. This information can be used subsequently to check that a party has not changed the key that they are using and prevents a man in the middle attack. | 01-21-2010 |
Patent application number | Description | Published |
20120278811 | STREAM PROCESSING ON HETEROGENEOUS HARDWARE DEVICES - A stream processing execution engine evaluates development-time performance characteristic estimates in combination with run-time parameters to schedule execution of stream processing software components in a stack of a stream processing application that satisfy a defined performance criterion in a heterogeneous hardware device. A stream processing application includes a stack of interdependent stream processing software components. A stream processing execution engine evaluates one or more performance characteristics of multiple computational resources in the heterogeneous hardware device. Each performance characteristic is associated with performance of a computational resource in executing a computational-resource-dependent instance of a stream processing software component. The stream processing execution engine schedules within the run-time environment a computational resource on which to execute a computational-resource-dependent instance of one of the stream processing software components. The computational-resource-dependent instance is targeted for execution on the computational resource that satisfies a performance policy attributed to the stream processing software component. | 11-01-2012 |
20130343190 | APPLICATION-DRIVEN CONTROL OF WIRELESS NETWORKING SETTINGS - Embodiments related to automatically adjusting wireless network settings based upon utilization of a wireless network link by applications are disclosed. For example, one disclosed embodiment provides a method of adjusting a wireless networking setting for a wireless network link. The method includes monitoring data flow through a network interface controller to collect, for each of one or more applications running on the computing device and communicating over the wireless network link, flow performance data comprising information regarding an amount of data flow arising from the application. The method also includes monitoring link data comprising information regarding data being sent and received over the wireless network link, and based upon the flow performance data and the link data, controlling a network interface controller to adjust the wireless networking parameter to change a configuration of the network link. | 12-26-2013 |
20140258703 | ADAPTIVE DATA SYNCHRONIZATION - In one embodiment, an application module | 09-11-2014 |
20140380075 | Selective Blocking of Background Activity - Controlling background activity in a computing device or system during a low-power mode is described. In some example techniques, when a computing device or system is in a low power mode, a determination is made whether to block one or more trigger events from causing an activation of one or more respective background task operations. Based at least in part on the determination, at least one trigger event may be allowed to cause an activation of a respective background task operation during the low power mode. | 12-25-2014 |
Patent application number | Description | Published |
20130061249 | DECOUPLING BACKGROUND WORK AND FOREGROUND WORK - Systems, methods, and apparatus for separately loading and managing foreground work and background work of an application. In some embodiments, a method is provided for use by an operating system executing on at least one computer. The operating system may identify at least one foreground component and at least one background component of an application, and may load the at least one foreground component for execution separately from the at least one background component. For example, the operating system may execute the at least one foreground component without executing the at least one background component. In some further embodiments, the operating system may use a specification associated with the application to identify at least one piece of computer executable code implementing the at least one background component. | 03-07-2013 |
20130061251 | EVENT AGGREGATION FOR BACKGROUND WORK EXECUTION - Systems, methods, and apparatus for separately managing foreground work and background work. In some embodiments, an operating system may identify at least one foreground component and at least one background component of a same application or different applications, and may manage the execution of the components differently. For example, the operating system may receive a request that at least one background component of an application be executed in response to at least one event. In response to detecting an occurrence of the at least one event, the operating system may determine whether at least one first condition set by the application is satisfied and whether at least one second condition set by the operating system is satisfied, and may execute the at least one background component when it is determined that the at least one first and second conditions are satisfied following the occurrence of the at least one event. | 03-07-2013 |