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    • 6. 发明授权
    • Smart user-centric information aggregation
    • 智能用户为中心的信息聚合
    • US08868598B2
    • 2014-10-21
    • US13586711
    • 2012-08-15
    • Jianwen ZhangZhimin ZhangJian-Tao SunJun YanNing LiuLei JiWeizhu ChenZheng Chen
    • Jianwen ZhangZhimin ZhangJian-Tao SunJun YanNing LiuLei JiWeizhu ChenZheng Chen
    • G06F7/00G06F17/30
    • G06F17/30032G06F17/30905
    • A smart user-centric information aggregation system allows a user to define a region of content displayed in a display of a device and performs information aggregation on behalf of the user. The smart user-centric information aggregation system searches, aggregates and groups information related to content included in the region of content for the user while the user can continue to perform his/her original course of actions without interruption. After finding information related to the desired content, the smart user-centric information aggregation system may notify the user and present the found information to the user upon receiving confirmation from the user. The smart user-centric information aggregation system may continue to find new related information and update the presentation with the newly found information periodically, in some instances without user intervention or input.
    • 以智能用户为中心的信息聚合系统允许用户定义显示在设备显示器中的内容区域,并代表用户执行信息聚合。 智能用户为中心的信息聚合系统在用户可以继续执行他/她的原始行为过程而不间断地搜索,聚合和分组与用户内容区域中包含的内容相关的信息。 在找到与期望内容相关的信息之后,智能用户为中心的信息聚合系统可以在接收到来自用户的确认时通知用户并向用户呈现找到的信息。 以智能用户为中心的信息聚合系统可以继续寻找新的相关信息,并且在某些情况下,不需要用户干预或输入,定期更新新发现的信息。
    • 7. 发明授权
    • Method for optimization with gradient information
    • 梯度信息优化方法
    • US08855987B2
    • 2014-10-07
    • US13390010
    • 2010-07-27
    • Matthias ImhofKaveh GhayourTao Sun
    • Matthias ImhofKaveh GhayourTao Sun
    • G06G7/48G01V11/00G01V1/30
    • G01V11/00G01V1/282G01V1/30G01V2210/614G01V2210/66G01V2210/661G01V2210/665
    • A method of improving a geologic model of a subsurface region. One or more sets of parameter values are selected. Each parameter represents a geologic property. A cost and a gradient of the cost are obtained for each set. A geometric approximation of a parameter space defined by one or more formations is constructed. A response surface model is generated expressing the cost and gradient associated with each formation. When a finishing condition is not satisfied, at least one additional set is selected based at least in part on the response surface model associated with previously selected sets. Parts of the method are repeated using successively selected additional sets to update the approximation and the response surface model until the finishing condition is satisfied. Sets having a predetermined level of cost to a geologic model of the subsurface region and/or their associated predicted outcomes are outputted to update the geologic model.
    • 一种改善地下区域地质模型的方法。 选择一组或多组参数值。 每个参数代表地质属性。 为每一组获得成本和成本梯度。 构造由一个或多个地层定义的参数空间的几何近似。 生成响应曲面模型,表示与每个组合相关联的成本和梯度。 当不满足整理条件时,至少部分地基于与先前选择的组相关联的响应面模型选择至少一个附加集合。 使用连续选择的附加集来重复该方法的部分以更新近似值和响应面模型,直到满足完成条件。 输出具有对地下区域的地质模型和/或其相关联的预测结果的预定成本水平的集合以更新地质模型。