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    • 1. 发明申请
    • Network event notification and delivery
    • 网络事件通知和传递
    • US20070162582A1
    • 2007-07-12
    • US11330965
    • 2006-01-11
    • Mohamed BelaliCort StinnettClark Nicholson
    • Mohamed BelaliCort StinnettClark Nicholson
    • G06F15/173
    • G06F9/542G06F1/3209G06F2209/544
    • Described are a main host system of the client computer, and a network event notification system, including a networking subsystem that communicates with a network server to act as a proxy for the client computer when the main host system of the client computer is in a sleep state. The networking subsystem may await a synchronization packet initiated by the network server, or may occasionally poll the network server to determine whether data is available. To this end, the computing device operates an associated network subsystem while the main host system of the computing device is in a sleep state, and receives data via the network subsystem indicating that content is available to the computing device. Policy is then invoked policy to determine whether to wake at least part of the main host system to handle the content. A target duty cycle mechanism is also provided to control the average power consumption during wake and sleep cycling.
    • 描述了客户端计算机的主要主机系统和网络事件通知系统,其中包括当客户端计算机的主主机系统处于睡眠状态时与网络服务器通信以充当客户端计算机的代理的网络子系统 州。 网络子系统可以等待由网络服务器发起的同步分组,或者可能偶尔轮询网络服务器以确定数据是否可用。 为此,计算设备在计算设备的主主机系统处于睡眠状态时操作相关联的网络子系统,并且经由网络子系统接收指示内容对于计算设备可用的数据。 然后调用策略以确定是否唤醒主要主机系统的至少一部分来处理内容。 还提供目标占空比机制来控制唤醒和睡眠循环期间的平均功耗。
    • 2. 发明申请
    • Method and system for improved reliability in storage devices
    • 用于提高存储设备可靠性的方法和系统
    • US20060069870A1
    • 2006-03-30
    • US10949154
    • 2004-09-24
    • Clark NicholsonWilliam Westerinen
    • Clark NicholsonWilliam Westerinen
    • G06F12/00G06F1/30
    • G06F11/1441G06F1/30G06F11/2015G06F12/0804G06F12/0866G06F2212/222Y02D10/13
    • A method of preventing data loss in a data storage system includes supplying write data to a high speed volatile write buffer and supplying electrical power from an energy storage device upon detection of a primary power loss event. The backup electrical power is supplied to the write buffer and nonvolatile cache. Under backup power, the write data is transferred into the nonvolatile cache and the backup power is removed. Upon regaining main power, a data presence indication triggers a transfer of the write data from the nonvolatile cache to the long term storage media. The method may be implemented for a system to protect it from inadvertent power losses or it may implemented in a system where the long term storage device is power cycled to save power. The energy storage device is not necessarily needed in the power cycled system unless power failure protection is also desired.
    • 一种防止数据存储系统中的数据丢失的方法包括向高速易失性写入缓冲器提供写入数据,并在检测到主电源损耗事件时从能量存储装置提供电力。 备用电源提供给写入缓冲区和非易失性缓存。 在备用电源下,将写入数据传输到非易失性高速缓存中,并删除备用电源。 在恢复主电源时,数据存在指示触发将写入数据从非易失性缓存传送到长期存储介质。 该方法可以实现用于系统以防止意外的功率损耗,或者它可以在长期存储设备被电力循环以节省功率的系统中实现。 在电力循环系统中不一定需要能量存储装置,除非还需要断电保护。
    • 9. 发明申请
    • Using detected visual cues to change computer system operating states
    • 使用检测到的视觉提示来改变计算机系统的运行状态
    • US20060192775A1
    • 2006-08-31
    • US11066988
    • 2005-02-25
    • Clark NicholsonZhengyou ZhangPasquale DeMaio
    • Clark NicholsonZhengyou ZhangPasquale DeMaio
    • G09G5/00
    • G06F3/013A61F4/00G06F1/3203G06F1/3231Y02D10/173
    • Described is a method and system that uses visual cues from a computer camera (e.g., webcam) based on presence detection, pose detection and/or gaze detection, to improve a user's computing experience. For example, by determining whether a user is looking at the display or not, better power management is achieved, such as by reducing power consumed by the display when the user is not looking. Voice recognition such as for command and control may be turned on and off based on where the use is looking when speaking. Visual cues may be used alone or in conjunction with other criteria, such as mouse or keyboard input, the current operating context and possibly other data, to make an operating state decision. Interaction detection is improved by determining when the user is interacting by viewing the display, even when not physically interacting via an input device.
    • 描述了一种基于存在检测,姿态检测和/或注视检测使用来自计算机相机(例如,网络摄像头)的视觉提示的方法和系统,以改善用户的计算体验。 例如,通过确定用户是否正在查看显示器,可以实现更好的电源管理,例如当用户不看时减少显示器消耗的功率。 语音识别(如命令和控制)可以根据用途在发言时的位置来开启和关闭。 视觉线索可以单独使用或与其他标准一起使用,例如鼠标或键盘输入,当前操作上下文和可能的其他数据,以进行操作状态决定。 通过确定用户何时通过查看显示器进行交互来改善交互检测,即使不是通过输入设备进行物理上的交互。
    • 10. 发明申请
    • Advanced power management for computer displays
    • 电脑显示器的高级电源管理
    • US20060101293A1
    • 2006-05-11
    • US10985478
    • 2004-11-10
    • Adrian ChandleyChristopher SchoppaClark Nicholson
    • Adrian ChandleyChristopher SchoppaClark Nicholson
    • G06F1/26
    • G06F1/3265G06F1/3203G09G2320/0626G09G2330/021Y02D10/153
    • Described is a method and system for power management of mobile computer displays, in which areas of the screen are selectively controlled to consume less power than other areas. For example, a foreground window having focus may receive normal brightness, while background areas are dimmed. To this end, the pixels of selected areas are controlled to vary color depth, resolution, refresh rate, brightness and/or the on/off state for any part of the display. Power settings for parts of the display not corresponding to a focused window can be gradually reduced over time. Power policy may determine which areas are given reduced power, and external mechanisms provide information useful in the determination, such as when the user last interacted with a window, where the mouse is hovering, explicit user instructions as to how to power manage a window, and sensors that detect where the user is likely to want more power.
    • 描述了用于移动计算机显示器的电源管理的方法和系统,其中屏幕的区域被选择性地控制以消耗比其他区域更少的功率。 例如,具有焦点的前景窗口可以接收正常亮度,而背景区域变暗。 为此,控制所选区域的像素以改变显示器的任何部分的颜色深度,分辨率,刷新率,亮度和/或开/关状态。 与对焦窗口相对应的显示部分的电源设置可以逐渐减少。 功率策略可以确定哪些区域具有降低的功率,并且外部机制提供在确定中有用的信息,诸如用户最后与窗口交互的位置,鼠标悬停的位置,关于如何管理窗口的明确的用户指令, 以及检测用户可能需要更多电力的传感器。