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    • 5. 发明申请
    • FAST DATA PROTECTION USING DUAL FILE SYSTEMS
    • 使用双文件系统的快速数据保护
    • WO2015196444A1
    • 2015-12-30
    • PCT/CN2014/080935
    • 2014-06-27
    • MICROSOFT TECHNOLOGY LICENSING, LLCLIU, ZhenHUANG, Jerry
    • LIU, ZhenHUANG, Jerry
    • G06F12/14
    • G06F21/6218G06F21/31G06F21/50G06F21/604G06F21/6245G06F21/74G06F21/78G06F2221/2107G06F2221/2143
    • A computing device (102) is described that utilizes two file systems to enable sensitive data stored thereon to be deleted automatically, quickly, and discretely when the computing device is in a risky environment or context or when data protection has otherwise been activated. A first system (124) on the computing device manages a first memory area (128) that stores non-sensitive data while a second file system (126) on the computing device manages a second memory area (130) that stores sensitive data. Only the first file system operates to receive data requests from other processes executing on the computing device. In a first operating mode, the first file system interacts with the second file system to ensure that both non-sensitive and sensitive data is returned in response to data requests. In a second operating mode, communication between the two file systems is disabled and the second file system deletes the sensitive data.
    • 描述了一种计算设备(102),其利用两个文件系统使得存储在其上的敏感数据能够在计算设备处于危险的环境或上下文中或者当数据保护被另外被激活时被自动,快速和离散地删除。 计算设备上的第一系统(124)管理存储非敏感数据的第一存储区域(128),而计算设备上的第二文件系统(126)管理存储敏感数据的第二存储区域(130)。 只有第一个文件系统操作以从计算设备上执行的其他进程接收数据请求。 在第一操作模式中,第一文件系统与第二文件系统交互以确保响应于数据请求返回非敏感和敏感数据。 在第二种操作模式下,两个文件系统之间的通信被禁用,第二个文件系统删除敏感数据。
    • 6. 发明申请
    • SYSTEM FOR DATA PROTECTION IN POWER OFF MODE
    • 断电模式下数据保护系统
    • WO2015196450A1
    • 2015-12-30
    • PCT/CN2014/080947
    • 2014-06-27
    • MICROSOFT TECHNOLOGY LICENSING, LLCHUANG, JerryLIU, Zhen
    • HUANG, JerryLIU, Zhen
    • G06F21/00
    • G06F21/87G06F21/86G06F2221/2143
    • Methods,systems,and computer program products are provided for protecting data stored on a device,even when the device is powered off. The device includes a first operating system and a security module. The first operating system (OS) is the main OS for the device,managing computer resources when the device is powered up in an "on" mode. The security module is separate from the main OS,and is configured to monitor for undesired tampering of the device. The security module is implemented in hardware that functions even when the device is turned off,and thus can protect data against unauthorized access even when the device is off. The security module may be implemented in the form of a circuit, a system-on-chip (SOC),a secondary OS that executes in a processor circuit separate from the processor hardware that operates the main OS, and/or in another manner.
    • 提供方法,系统和计算机程序产品,用于保护存储在设备上的数据,即使设备断电。 该设备包括第一操作系统和安全模块。 第一个操作系统(OS)是设备的主要操作系统,当设备以“开”模式通电时,管理计算机资源。 安全模块与主OS分开,并配置为监视设备意外篡改。 安全模块以硬件实现,即使在设备关闭时也能起作用,因此即使设备关闭,也可以保护数据免遭未经授权的访问。 安全模块可以以电路,片上系统(SOC),在与操作主OS的处理器硬件分离的处理器电路中执行的辅助OS和/或以另一种方式来实现。
    • 9. 发明申请
    • RESOLVING AMBIGUOUS TOUCHES TO A TOUCH SCREEN INTERFACE
    • 将简单的触控条解决到触摸屏界面
    • WO2015088882A1
    • 2015-06-18
    • PCT/US2014/068677
    • 2014-12-05
    • MICROSOFT TECHNOLOGY LICENSING, LLC
    • HUANG, JerryLIU, ZhenMAK CHIU CHUN, Bobby
    • G06F3/0481G06F3/0482G06F3/0484G06F3/0488
    • G06F3/0482G06F3/0481G06F3/04842G06F3/0488
    • Ambiguous touch gestures on a touch screen displaying an arrangement of user interface items are resolved. Multiple candidate items are identified from a touch area, and a resolution menu is activated. Resolution menu items have corresponding candidate items, but resolution menu items are positioned relative to one another differently than their corresponding candidate items, with respect to gaps, edge alignment, presentation order, or size. A resolution menu item selection converts to a candidate item selection. Ambiguous Touch Resolution (ATR) code may reside in an operating system, in an application, or both. Some touch areas are circular, quadrilateral, or irregular, and defined in terms of vertex points, center, radius, or bitmaps, using one or more touch locations, previously specified values, offsets from touch locations, tracings, averages, or weighted averages. Some selections include sliding and releasing a digit, touching the screen inside an item, or highlighting an automatically chosen proposed item.
    • 解决了显示用户界面项目布置的触摸屏上的模糊触摸手势。 从触摸区域识别多个候选项目,并激活分辨率菜单。 分辨率菜单项具有对应的候选项,但是关于间隙,边缘对齐,呈现顺序或大小,分辨率菜单项相对于彼此不同于其相应的候选项定位。 分辨率菜单项选择转换为候选项目选择。 不明确的触摸分辨率(ATR)代码可能驻留在操作系统,应用程序或两者中。 一些触摸区域是圆形,四边形或不规则的,并且使用一个或多个触摸位置,先前指定的值,从触摸位置的偏移,跟踪,平均值或加权平均值来定义为顶点,中心,半径或位图。 一些选择包括滑动和释放数字,触摸一个项目中的屏幕,或突出显示一个自动选择的建议项目。
    • 10. 发明申请
    • CONTROLLING INTERACTIONS BASED ON TOUCH SCREEN CONTACT AREA
    • 基于触摸屏接触面控制相互作用
    • WO2015088883A1
    • 2015-06-18
    • PCT/US2014/068678
    • 2014-12-05
    • MICROSOFT TECHNOLOGY LICENSING, LLC
    • HUANG, JerryLIU, Zhen
    • G06F3/0488G06F3/041
    • G06F3/0418G06F3/0414G06F3/044G06F3/0488G06F3/04883G06F2203/04101G06F2203/04808
    • To assist user interaction through a touch screen, a continuous or discontinuous Area-Based Interaction (ABI) code area-to-magnitude function monotonically relates non-zero contact area sizes to corresponding pressure or other magnitude values as user input interactively controlling variables such as: depth behind the touch screen, paint flow, ink flow, rendered object movement, line width, state changes in a user interface button. Some embodiments use pressure velocity (contact area size change over time change) to zero-zero- or zero-constant-control variables. Some calibrate ABI code using sample contact area(s). Some ABI functions relate contact area sizes separated by thresholds to different respective magnitudes. Some contact areas are circular, quadrilateral, or irregular, and defined in terms of vertex points, center, radius, or bitmaps, using one or more touch locations, previously specified values, offsets from touch locations, tracings, averages, or weighted averages. ABI code resides in an operating system, in an application, or both.
    • 为了帮助用户通过触摸屏进行交互,连续或不连续的基于区域的交互(ABI)码区域到幅度函数单调地将非零接触面积大小与相应的压力或其他幅度值相关联,因为用户输入交互控制变量,例如 :触摸屏后面的深度,油漆流动,油墨流动,渲染对象移动,线宽,用户界面按钮中的状态变化。 一些实施例使用压力速度(接触面积尺寸随时间变化的变化)到零零或零常数控制变量。 一些使用样品接触面积校准ABI代码。 一些ABI功能将由阈值分隔的接触面积大小与不同的相应幅度相关联。 一些接触区域是圆形,四边形或不规则的,并且使用一个或多个触摸位置,先前指定的值,从触摸位置的偏移,跟踪,平均值或加权平均值来定义为顶点,中心,半径或位图。 ABI代码驻留在操作系统,应用程序或两者中。