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    • 1. 发明授权
    • Effective multi-class support vector machine classification
    • 有效的多类支持向量机分类
    • US07533076B2
    • 2009-05-12
    • US12050096
    • 2008-03-17
    • Christopher K. HarrisMauritius A. R. Schmidtler
    • Christopher K. HarrisMauritius A. R. Schmidtler
    • G06F17/00G06N7/00G06F15/18G06N7/08G06N5/00
    • G06K9/6269
    • An improved method of classifying examples into multiple categories using a binary support vector machine (SVM) algorithm. In one preferred embodiment, the method includes the following steps: storing a plurality of user-defined categories in a memory of a computer, analyzing a plurality of training examples for each category so as to identify one or more features associated with each category; calculating at least one feature vector for each of the examples; transforming each of the at least one feature vectors so as reflect information about all of the training examples; and building a SVM classifier for each one of the plurality of categories, wherein the process of building a SVM classifier further includes: assigning each of the examples in a first category to a first class and all other examples belonging to other categories to a second class, wherein if anyone of the examples belongs to another category as well as the first category, such examples are assigned to the first class only, optimizing at least one tunable parameter of a SVM classifier for the first category, wherein the SVM classifier is trained using the first and second classes; and optimizing a function that converts the output of the binary SVM classifier into a probability of category membership.
    • 一种使用二进制支持向量机(SVM)算法将示例分类为多个类别的改进方法。 在一个优选实施例中,该方法包括以下步骤:将多个用户定义的类别存储在计算机的存储器中,分析每个类别的多个训练示例,以便识别与每个类别相关联的一个或多个特征; 为每个示例计算至少一个特征向量; 转换所述至少一个特征向量中的每一个,以便反映关于所有训练示例的信息; 以及为所述多个类别中的每个类别构建SVM分类器,其中,构建SVM分类器的过程还包括:将第一类别中的每个示例分配给第一类,将属于其他类别的所有其他示例分配给第二类 其中如果任何示例属于另一类别以及第一类别,则将这些示例仅分配给第一类,优化用于第一类别的SVM分类器的至少一个可调参数,其中,SVM分类器使用 第一类和第二类; 并优化将二进制SVM分类器的输出转换成类别成员的概率的函数。
    • 2. 发明申请
    • METHODS AND SYSTEMS FOR TRANSDUCTIVE DATA CLASSIFICATION
    • 用于传输数据分类的方法和系统
    • US20080097936A1
    • 2008-04-24
    • US11752634
    • 2007-05-23
    • Mauritius A. R. SchmidtlerChristopher K. Harris
    • Mauritius A. R. SchmidtlerChristopher K. Harris
    • G06F15/18
    • G06N99/005
    • A system, method, data processing apparatus, and article of manufacture are provided for classifying data. Labeled data points are received, each of the labeled data points having at least one label indicating whether the data point is a training example for data points for being included in a designated category or a training example for data points being excluded from a designated category; receiving unlabeled data points; receiving at least one predetermined cost factor of the labeled data points and unlabeled data points; training a transductive classifier using MED through iterative calculation using the at least one cost factor and the labeled data points and the unlabeled data points as training examples; applying the trained classifier to classify at least one of the unlabeled data points, the labeled data points, and input data points; and outputting a classification of the classified data points, or derivative thereof.
    • 提供了一种用于对数据进行分类的系统,方法,数据处理装置和制品。 标签数据点被接收,每个标记数据点具有至少一个标签,指示数据点是否是用于包括在指定类别中的数据点的训练示例,或者是从指定类别排除的数据点的训练示例; 接收未标记的数据点; 接收标记数据点和未标记数据点的至少一个预定成本因子; 通过使用至少一个成本因子和标记的数据点和未标记的数据点作为训练示例的迭代计算来训练使用MED的转换分类器; 应用经过训练的分类器对未标记的数据点,标记数据点和输入数据点中的至少一个进行分类; 并输出分类数据点或其派生物的分类。
    • 4. 发明授权
    • Methods and systems for transductive data classification
    • 用于转换数据分类的方法和系统
    • US08374977B2
    • 2013-02-12
    • US12721393
    • 2010-03-10
    • Mauritius A. R. SchmidtlerChristopher K. Harris
    • Mauritius A. R. SchmidtlerChristopher K. Harris
    • G06N5/00
    • G06N99/005
    • A system, method, data processing apparatus, and article of manufacture are provided for classifying data. Labeled data points are received, each of the labeled data points having at least one label indicating whether the data point is a training example for data points for being included in a designated category or a training example for data points being excluded from a designated category; receiving unlabeled data points; receiving at least one predetermined cost factor of the labeled data points and unlabeled data points; training a transductive classifier using MED through iterative calculation using the at least one cost factor and the labeled data points and the unlabeled data points as training examples; applying the trained classifier to classify at least one of the unlabeled data points, the labeled data points, and input data points; and outputting a classification of the classified data points, or derivative thereof.
    • 提供了一种用于对数据进行分类的系统,方法,数据处理装置和制品。 标签数据点被接收,每个标记数据点具有至少一个标签,指示数据点是否是用于包括在指定类别中的数据点的训练示例,或者是从指定类别排除的数据点的训练示例; 接收未标记的数据点; 接收标记数据点和未标记数据点的至少一个预定成本因子; 通过使用至少一个成本因子和标记的数据点和未标记的数据点作为训练示例的迭代计算来训练使用MED的转换分类器; 应用经过训练的分类器对未标记的数据点,标记数据点和输入数据点中的至少一个进行分类; 并输出分类数据点或其派生物的分类。
    • 5. 发明授权
    • Effective multi-class support vector machine classification
    • 有效的多类支持向量机分类
    • US07386527B2
    • 2008-06-10
    • US10412163
    • 2003-04-10
    • Christopher K. HarrisMauritius A. R. Schmidtler
    • Christopher K. HarrisMauritius A. R. Schmidtler
    • G06F17/00G06F15/18G06N7/00G06N7/08G06N5/00
    • G06K9/6269
    • An improved method of classifying examples into multiple categories using a binary support vector machine (SVM) algorithm. In one preferred embodiment, the method includes the following steps: storing a plurality of user-defined categories in a memory of a computer; analyzing a plurality of training examples for each category so as to identify one or more features associated with each category; calculating at least one feature vector for each of the examples; transforming each of the at least one feature vectors so as reflect information about all of the training examples; and building a SVM classifier for each one of the plurality of categories, wherein the process of building a SVM classifier further includes: assigning each of the examples in a first category to a first class and all other examples belonging to other categories to a second class, wherein if any one of the examples belongs to another category as well as the first category, such examples are assigned to the first class only; optimizing at least one tunable parameter of a SVM classifier for the first category, wherein the SVM classifier is trained using the first and second classes; and optimizing a function that converts the output of the binary SVM classifier into a probability of category membership.
    • 一种使用二进制支持向量机(SVM)算法将示例分类为多个类别的改进方法。 在一个优选实施例中,该方法包括以下步骤:将多个用户定义的类别存储在计算机的存储器中; 分析每个类别的多个训练示例,以便识别与每个类别相关联的一个或多个特征; 为每个示例计算至少一个特征向量; 转换所述至少一个特征向量中的每一个,以便反映关于所有训练示例的信息; 以及为所述多个类别中的每个类别构建SVM分类器,其中,构建SVM分类器的过程还包括:将第一类别中的每个示例分配给第一类,将属于其他类别的所有其他示例分配给第二类 其中如果任何一个示例属于另一类别以及第一类别,则这些示例仅被分配给第一类; 优化用于所述第一类别的SVM分类器的至少一个可调参数,其中使用所述第一类和第二类训练所述SVM分类器; 并优化将二进制SVM分类器的输出转换成类别成员的概率的函数。
    • 6. 发明授权
    • Methods and systems for improved transductive maximum entropy discrimination classification
    • 用于改进转换最大熵辨别分类的方法和系统
    • US07761391B2
    • 2010-07-20
    • US11752634
    • 2007-05-23
    • Mauritius A. R. SchmidtlerChristopher K. Harris
    • Mauritius A. R. SchmidtlerChristopher K. Harris
    • G06N5/00
    • G06N99/005
    • A system, method, data processing apparatus, and article of manufacture are provided for classifying data. Labeled data points are received, each of the labeled data points having at least one label indicating whether the data point is a training example for data points for being included in a designated category or a training example for data points being excluded from a designated category; receiving unlabeled data points; receiving at least one predetermined cost factor of the labeled data points and unlabeled data points; training a transductive classifier using MED through iterative calculation using the at least one cost factor and the labeled data points and the unlabeled data points as training examples; applying the trained classifier to classify at least one of the unlabeled data points, the labeled data points, and input data points; and outputting a classification of the classified data points, or derivative thereof.
    • 提供了一种用于对数据进行分类的系统,方法,数据处理装置和制品。 标签数据点被接收,每个标记数据点具有至少一个标签,指示数据点是否是用于包括在指定类别中的数据点的训练示例,或者是从指定类别排除的数据点的训练示例; 接收未标记的数据点; 接收标记数据点和未标记数据点的至少一个预定成本因子; 通过使用至少一个成本因子和标记的数据点和未标记的数据点作为训练示例的迭代计算来训练使用MED的转换分类器; 应用经过训练的分类器对未标记的数据点,标记数据点和输入数据点中的至少一个进行分类; 并输出分类数据点或其派生物的分类。
    • 8. 发明授权
    • Systems and methods of processing scanned data
    • 处理扫描数据的系统和方法
    • US08749839B2
    • 2014-06-10
    • US11329999
    • 2006-01-11
    • Roland G. BorreyMauritius A. R. SchmidtlerRobert A. TaylorJoel S. FechterHari S. Asuri
    • Roland G. BorreyMauritius A. R. SchmidtlerRobert A. TaylorJoel S. FechterHari S. Asuri
    • H04N1/00G06F3/12
    • G06K15/407G06K9/3208G06T5/00H04N1/40
    • Techniques and systems to enhance digital acquisition devices are presented. The enhancements are available to the user in local as well as in remote deployments yielding efficiency gains for a large variety of business processes. The quality enhancements are achieved efficiently by employing virtual reacquisition. The method of virtual reacquisition renders unnecessary the physical reacquisition of analog data in case the digital data obtained by the acquisition device are of insufficient quality. The method and system allows multiple users to access the same acquisition device for analog data. In some One or more users can virtually reacquire data provided by multiple analog or digital sources. The acquired raw data can be processed by each user according to his personal preferences and/or requirements. The preferred processing settings and attributes are determined interactively in real time as well as non real time, automatically and a combination thereof.
    • 介绍了增强数字采集设备的技术和系统。 在本地和远程部署中,用户可以使用增强功能,从而为各种业务流程带来效率提升。 通过采用虚拟重新采集来提高质量。 在采集设备获得的数字数据质量不足的情况下,虚拟反馈方法不需要模拟数据的物理重新捕获。 该方法和系统允许多个用户访问相同的采集设备以进行模拟数据。 在某些一个或多个用户可以虚拟地重新获取由多个模拟或数字源提供的数据。 所获取的原始数据可以由每个用户根据他的个人喜好和/或要求来处理。 优选的处理设置和属性被实时地以非实时的方式交互地确定并且它们的组合。
    • 9. 发明授权
    • Systems and methods for organizing data sets
    • 用于组织数据集的系统和方法
    • US09082080B2
    • 2015-07-14
    • US12042774
    • 2008-03-05
    • Mauritius A. R. SchmidtlerJan W. AmtrupStephen Michael ThompsonAnthony Sarah
    • Mauritius A. R. SchmidtlerJan W. AmtrupStephen Michael ThompsonAnthony Sarah
    • G06F17/30G06N99/00
    • G06F17/30598G06F17/30312G06F17/3053G06N99/005
    • A method is provided for organizing data sets. In use, an automatic decision system is created or updated for determining whether data elements fit a predefined organization or not, where the decision system is based on a set of preorganized data elements. A plurality of data elements is organized using the decision system. At least one organized data element is selected for output to a user based on a score or confidence from the decision system for the at feast one organized data element. Additionally, at least a portion of the at least one organized data element is output to the user. A response is received from the user comprising at least one of a confirmation, modification, and a negation of the organization of the at least one organized data element. The automatic decision system is recreated or updated based on the user response. Other embodiments are also presented.
    • 提供了一种用于组织数据集的方法。 在使用中,创建或更新自动决策系统以确定数据元素是否符合预定义的组织,其中决策系统基于一组预先组织的数据元素。 使用决策系统来组织多个数据元素。 选择至少一个有组织的数据元素以基于来自决定系统对于一个有组织的数据元素的得分或置信度输出给用户。 此外,至少一个有组织数据元素的至少一部分被输出给用户。 从用户接收到包括至少一个有组织数据元素的组织的确认,修改和否定中的至少一个的响应。 基于用户响应重新创建或更新自动决策系统。 还提出了其他实施例。