摘要:
Described is a mechanism for receiving new data at an auxiliary device associated with a main computer system, and processing that new data within the auxiliary device firmware to take some action. The receipt and processing of the data is independent of whether the main computer system is in a powered-up state (online) or powered-down state (offline). A cache that maintains the user application data for offline navigation may be updated with new data, either to change existing data in the cache or add a new navigation path. The received data can be processed to perform other actions, depending on the context of that data as determined by auxiliary processing.
摘要:
Described is a mechanism by which application programs (or plug-ins) and an auxiliary service adjust the output and/or data available for output on an auxiliary device based on changes detected in the current context of the auxiliary display. Context sensors detect and report changes in context, whereby some action is taken with respect to what information is displayed or can be displayed on the auxiliary display device. Examples of context data that can change include the physical location of the display, detected movement or motion data, presence of a particular user or others, power state, network connectivity status, privacy status and so forth. The auxiliary device can have context as to its position relative to the main display. Information sensitivity levels may be used to specify whether an application program's data can be displayed, based on the perceived sensitivity of the information and the user's current context.
摘要:
Described is a mechanism by which application programs (or plug-ins) and an auxiliary service adjust the output and/or data available for output on an auxiliary device based on changes detected in the current context of the auxiliary display. Context sensors detect and report changes in context, whereby some action is taken with respect to what information is displayed or can be displayed on the auxiliary display device. Examples of context data that can change include the physical location of the display, detected movement or motion data, presence of a particular user or others, power state, network connectivity status, privacy status and so forth. The auxiliary device can have context as to its position relative to the main display. Information sensitivity levels may be used to specify whether an application program's data can be displayed, based on the perceived sensitivity of the information and the user's current context.
摘要:
Described is a mechanism by which application programs (or plug-ins) and an auxiliary service adjust the output and/or data available for output on an auxiliary device based on changes detected in the current context of the auxiliary display. Context sensors detect and report changes in context, whereby some action is taken with respect to what information is displayed or can be displayed on the auxiliary display device. Examples of context data that can change include the physical location of the display, detected movement or motion data, presence of a particular user or others, power state, network connectivity status, privacy status and so forth. The auxiliary device can have context as to its position relative to the main display. Information sensitivity levels may be used to specify whether an application program's data can be displayed, based on the perceived sensitivity of the information and the user's current context.
摘要:
Described is an architecture by which application programs can provide data to auxiliary display devices of essentially any type for display to a user. A defined application layer (e.g., accessed via interfaces) allows programs to provide data to a service that controls the output of data to an auxiliary display device, and returns navigational data to the application upon appropriate user interaction with the device via actuators. Enumeration allows applications to discover the capabilities of a device, while arbitration determines which application has input-output rights to the device. The architecture further provides a protocol layer including pluggable protocol proxies that allow various types of displays to serve as an auxiliary display. This platform-like model allows program developers the ability provide programs that leverage auxiliary displays when available, and provides display manufacturers the ability to provide displays with extensible capabilities.
摘要:
Described is a system and system by which application programs provide data to auxiliary display device (that is associated with a main computer system) for display, including at times when the main computer system is powered down. The cache maintains the user data in association with structured navigational information, to allow navigation within the data via the structure. When online, the main computer system prepares the data cache from program data in combination with navigational information, and transfers the cache to an offline medium such as auxiliary storage in firmware. The cache may be arranged as a tree structure, such that navigation commands result in output according to data in the tree. Other events such as time-based events can change the auxiliary device output.
摘要:
An auxiliary processing state of a computing device provides an auxiliary display within a primary display device of the computing device. As such, a computing device can switch from a primary processing state (e.g., full power, full operating system, full functionality) to an auxiliary processing state and yet still provide a user interface through the primary display device. The auxiliary processing state may employ a different processor than the primary processing state. Alternatively, auxiliary processing state and the primary processing state may employ different processing modes of the same processor. Transitions between the auxiliary display of the auxiliary processing state and the primary display of the primary processing state may be transitioned to preserve some consistency between the two displays.
摘要:
An auxiliary processing state of a computing device provides an auxiliary display within a primary display device of the computing device. As such, a computing device can switch from a primary processing state (e.g., full power, full operating system, full functionality) to an auxiliary processing state and yet still provide a user interface through the primary display device. The auxiliary processing state may employ a different processor than the primary processing state. Alternatively, auxiliary processing state and the primary processing state may employ different processing modes of the same processor. Transitions between the auxiliary display of the auxiliary processing state and the primary display of the primary processing state may be transitioned to preserve some consistency between the two displays.
摘要:
Described is a system and method by which application programs running on a main computer system communicate with an auxiliary display device (such as a cell phone, pocket-sized computer, alarm clock, television, digital picture frame and so forth) to provide viewable information on the device, remote control capabilities, and notifications. Via API calls, programs provide information in the same format regardless of the device capabilities and/or the connection type. An auxiliary display platform converts a notification into a format understood by a device driver, which then filters the notification as desired for its particular hardware device before the notification is communicated. Return communications return data such as status and user interaction with the displayed information. Software vendors may thus write code once to output notifications on auxiliary displays, while hardware manufacturers can have their devices work as auxiliary displays, with little or no modification to existing hardware.
摘要:
Described is a system and method including an auxiliary display platform having an interface (API) set that provides a way for client applications running on a main computer system to interact with various types of auxiliary displays, irrespective of differences between various device implementations. Interaction includes displaying content and notifications provided by the application, and returning events to the application. In one implementation the API set comprises a set of COM objects that register and perform configuration checks of a client application, send content and notifications to attached devices, and return events from the attached devices. The application may send data to an endpoint corresponding to a communication destination (e.g., a particular auxiliary device application) and a contract (e.g., a format) for the data. The platform and API set thus provide an abstraction layer for applications to provide information independent of any particular auxiliary device implementation.