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    • 1. 发明申请
    • SENSOR-BASED AUTHENTICATION TO A COMPUTER NETWORK-BASED SERVICE
    • 基于传感器的认证到基于计算机网络的服务
    • US20110283338A1
    • 2011-11-17
    • US12780584
    • 2010-05-14
    • Fan YangJacky ShenFeng ZhaoIvan BeschastnikhAmre Shakimov
    • Fan YangJacky ShenFeng ZhaoIvan BeschastnikhAmre Shakimov
    • H04L9/32G06F7/04H04L29/06
    • H04L9/3231H04L9/321H04L9/3226H04L63/083H04L2209/805
    • Sensor-based authentication technique embodiments are presented which generally employ sensor readings captured by a user's computing device (such as a mobile computing device like a cell phone, smart phone, PDA, and so on) to authenticate the user's access to a computer network-based service (such as a web-service) that is secured with traditional textual passwords. These traditional passwords are saved in an off-device password repository service. The aforementioned sensor readings are not cached on the user's computing device and are immediately streamed to the password repository service, where they are validated against a pre-arranged, known sensor-based password. If the validation succeeds, access to the password protected service is brokered by the password repository service on behalf of the user using the appropriate traditional password, and the user's computing device is granted access.
    • 基于传感器的认证技术实施例通常采用由用户的计算设备(诸如移动计算设备,如手机,智能电话,PDA等)捕获的传感器读数,以验证用户对计算机网络的访问 - 使用传统文本密码保护的基于服务(例如Web服务)。 这些传统密码保存在设备外的密码存储库服务中。 上述传感器读数不会缓存在用户的计算设备上,并且立即流式传输到密码存储库服务,在这些服务器中,它们将根据预先安排的已知基于传感器的密码进行验证。 如果验证成功,密码保护服务的访问代表使用适当的传统密码的用户进行密码存储库服务的授权,用户的计算设备被授权访问。
    • 2. 发明授权
    • Sensor-based authentication to a computer network-based service
    • 基于传感器的认证到基于计算机网络的服务
    • US08621583B2
    • 2013-12-31
    • US12780584
    • 2010-05-14
    • Fan YangJacky ShenFeng ZhaoIvan BeschastnikhAmre Shakimov
    • Fan YangJacky ShenFeng ZhaoIvan BeschastnikhAmre Shakimov
    • H04L29/06
    • H04L9/3231H04L9/321H04L9/3226H04L63/083H04L2209/805
    • Sensor-based authentication technique embodiments are presented which generally employ sensor readings captured by a user's computing device (such as a mobile computing device like a cell phone, smart phone, PDA, and so on) to authenticate the user's access to a computer network-based service (such as a web-service) that is secured with traditional textual passwords. These traditional passwords are saved in an off-device password repository service. The aforementioned sensor readings are not cached on the user's computing device and are immediately streamed to the password repository service, where they are validated against a pre-arranged, known sensor-based password. If the validation succeeds, access to the password protected service is brokered by the password repository service on behalf of the user using the appropriate traditional password, and the user's computing device is granted access.
    • 基于传感器的认证技术实施例通常采用由用户的计算设备(诸如移动计算设备,如手机,智能电话,PDA等)捕获的传感器读数,以验证用户对计算机网络的访问 - 使用传统文本密码保护的基于服务(例如Web服务)。 这些传统密码保存在设备外的密码存储库服务中。 上述传感器读数不会缓存在用户的计算设备上,并且立即流式传输到密码存储库服务,在这些服务器中,它们将根据预先安排的已知基于传感器的密码进行验证。 如果验证成功,密码保护服务的访问代表使用适当的传统密码的用户进行密码存储库服务的授权,用户的计算设备被授权访问。
    • 3. 发明授权
    • Platform for continuous mobile-cloud services
    • 连续移动云服务平台
    • US08745434B2
    • 2014-06-03
    • US13108690
    • 2011-05-16
    • Fan YangZhengping QianXiuwei ChenIvan BeschastnikhLi ZhuangLidong ZhouGuobin Shen
    • Fan YangZhengping QianXiuwei ChenIvan BeschastnikhLi ZhuangLidong ZhouGuobin Shen
    • G06F11/00
    • G06F9/5072G06F11/1438G06F11/1482
    • Data that is collected and disseminated by mobile devices typically has to be processed, correlated with other data, aggregated, and then transmitted back to the mobile device users before the information becomes stale or otherwise irrelevant. These operations may be performed in a cloud-based solution that manages dataflow. The cloud-based solutions may be scalable and implemented in a fault-tolerant distributed system to support user-facing continuous sensing and processing services in the cloud-computing system. A system may monitor execution of data and shift workloads (i.e., balancing) in response to spatial and temporal load imbalances that occur in a continuous computing environment. A failure recovery protocol may be implemented that uses a checkpoint-based partial rollback recovery mechanism with selective re-execution, which may allow recovery of the continuous processing after an error while avoiding large amounts of downtime and re-execution.
    • 由移动设备收集和传播的数据通常必须被处理,与其他数据相关,聚合,然后在信息变得陈旧或不相关之前被传送回移动设备用户。 这些操作可以在管理数据流的基于云的解决方案中执行。 基于云的解决方案可以在容错分布式系统中进行扩展和实现,以支持云计算系统中面向用户的连续感测和处理服务。 系统可以响应于在连续计算环境中发生的空间和时间负载不平衡来监视数据的执行和移动工作负载(即平衡)。 可以实现使用具有选择性重新执行的基于检查点的部分回滚恢复机制的故障恢复协议,这可以允许在错误之后恢复连续处理,同时避免大量的停机和重新执行。
    • 4. 发明申请
    • Platform for Continuous Mobile-Cloud Services
    • 持续移动云服务平台
    • US20120297249A1
    • 2012-11-22
    • US13108690
    • 2011-05-16
    • Fan YangZhengping QianXiuwei ChenIvan BeschastnikhLi ZhuangLidong ZhouGuobin Shen
    • Fan YangZhengping QianXiuwei ChenIvan BeschastnikhLi ZhuangLidong ZhouGuobin Shen
    • G06F11/14G06F15/173
    • G06F9/5072G06F11/1438G06F11/1482
    • Data that is collected and disseminated by mobile devices typically has to be processed, correlated with other data, aggregated, and then transmitted back to the mobile device users before the information becomes stale or otherwise irrelevant. These operations may be performed in a cloud-based solution that manages dataflow. The cloud-based solutions may be scalable and implemented in a fault-tolerant distributed system to support user-facing continuous sensing and processing services in the cloud-computing system. A system may monitor execution of data and shift workloads (i.e., balancing) in response to spatial and temporal load imbalances that occur in a continuous computing environment. A failure recovery protocol may be implemented that uses a checkpoint-based partial rollback recovery mechanism with selective re-execution, which may allow recovery of the continuous processing after an error while avoiding large amounts of downtime and re-execution.
    • 由移动设备收集和传播的数据通常必须被处理,与其他数据相关,聚合,然后在信息变得陈旧或不相关之前被传送回移动设备用户。 这些操作可以在管理数据流的基于云的解决方案中执行。 基于云的解决方案可以在容错分布式系统中进行扩展和实现,以支持云计算系统中面向用户的连续感测和处理服务。 系统可以响应于在连续计算环境中发生的空间和时间负载不平衡来监视数据的执行和移动工作负载(即平衡)。 可以实现使用具有选择性重新执行的基于检查点的部分回滚恢复机制的故障恢复协议,这可以允许在错误之后恢复连续处理,同时避免大量的停机和重新执行。
    • 7. 发明申请
    • FAULT-TOLERANT INPUT METHOD EDITOR
    • 容错输入法编辑器
    • US20160078013A1
    • 2016-03-17
    • US14787082
    • 2013-04-27
    • Baohua LIAOAlbert J. WONGHannah C. TANGFan YANGHenry OUYuanbo ZHANG
    • Baohua LiaoAlbert J. WongHannah C. TangFan YangHenry OuYuanbo Zhang
    • G06F17/24G06N5/04G06F3/01
    • G06F17/24G06F3/018G06F17/2223G06N5/048
    • A computer-implemented method can include receiving, at a computing device including one or more processors, an input from a user. The input can include one or more characters in a first writing system. The method can further include segmenting the input to obtain one or more segmentations, where each segmentation can include at least one segment including at least one character in the first writing system. A fuzzy model can be applied to the segmentations to obtain potential formal representations for the segmentations. Each of the potential formal representations can be in the first writing system and represent text in a second writing system. A plurality of character candidates can be determined based on the potential formal representations. Each of the plurality of character candidates can be a possible appropriate representation of the user input in the second writing system.
    • 计算机实现的方法可以包括在包括一个或多个处理器的计算设备处接收来自用户的输入。 输入可以包括第一写入系统中的一个或多个字符。 该方法还可以包括分割输入以获得一个或多个分割,其中每个分割可以包括至少一个包括第一书写系统中的至少一个字符的片段。 模糊模型可以应用于分段,以获得分段的潜在形式表示。 每个潜在的正式表示可以在第一个写入系统中,并在第二个写入系统中表示文本。 可以基于潜在的形式表示来确定多个字符候选。 多个字符候选中的每一个可以是第二写入系统中的用户输入的可能的适当表示。
    • 10. 发明申请
    • DATA FILTERING SYSTEM AND METHOD
    • 数据过滤系统及方法
    • US20140019463A1
    • 2014-01-16
    • US13977650
    • 2011-12-30
    • Zhe XiaoFan Yang
    • Zhe XiaoFan Yang
    • G06F17/30
    • G06F16/90G06F16/90335
    • The invention provides a data filtering system and method, wherein the data filtering system comprises: an extracting unit for extracting property characteristic of source data and sending it to a selecting unit; the selecting unit for selecting at least one property characteristic based on which data filtering is performed and for sending the selected property characteristic to a filtering condition generating unit; the filtering condition generating unit which, according to the selected at least one property characteristic, generates at least one filtering module that corresponds to the at least one property characteristic respectively and combines the at least one filtering module to generate filtering conditions; a data filter analysis unit which performs the filtering on source data according to the filtering conditions to thereby generate target data. With the invention, it is ensured that when characteristic of data changes, filtering modules can be recombined freely so as to adapt to the change of data characteristic efficiently.
    • 本发明提供了一种数据过滤系统和方法,其中数据过滤系统包括:提取单元,用于提取源数据的属性特征并将其发送到选择单元; 选择单元,用于基于哪个数据过滤来选择至少一个属性特性,并将所选择的属性特征发送到过滤条件生成单元; 所述过滤条件生成单元根据所选择的至少一个属性特征分别生成与所述至少一个属性特征对应的至少一个过滤模块,并组合所述至少一个过滤模块以生成过滤条件; 数据过滤器分析单元,其根据过滤条件执行对源数据的过滤,从而生成目标数据。 利用本发明,当数据特性变化时,可以自由重组滤波模块,以适应数据特性的变化。