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    • 1. 发明授权
    • Financial instrument position and subposition management
    • 财务工具位置和地理位置管理
    • US08510197B2
    • 2013-08-13
    • US12609739
    • 2009-10-30
    • Madhusudan PPankaj JainAr VinodhKlaus Mueller
    • Madhusudan PPankaj JainAr VinodhKlaus Mueller
    • G06Q40/00
    • G06Q40/08G06Q40/06
    • An analyzer module may read a selector key and a financial object number stored within a financial object. The financial object number may be sent to a selector module associated with the selector key. The selector module may read a selector strategy key stored within the financial object. A processor programmed by the selector module may retrieve a set of position values associated with the financial object based, at least in part, on the selector strategy key. A mapping module may be chosen by the selector module based upon a financial instrument type. The mapping module may store the position values within the financial object. A price calculator may generate a key figure for each of the position values. A list of the position values may be displayed to a user on a display device.
    • 分析器模块可以读取存储在金融对象中的选择器键和金融对象编号。 财务对象号可以被发送到与选择器键相关联的选择器模块。 选择器模块可以读取存储在金融对象内的选择器策略键。 由选择器模块编程的处理器可以至少部分地基于选择器策略键来检索与金融对象相关联的一组位置值。 可以由选择器模块基于金融工具类型来选择映射模块。 映射模块可以在财务对象内存储位置值。 价格计算器可以产生每个位置值的关键数字。 可以在显示装置上向用户显示位置值的列表。
    • 2. 发明授权
    • Financial instrument management using object differentiation
    • 金融工具管理使用对象差异化
    • US08751341B2
    • 2014-06-10
    • US12576952
    • 2009-10-09
    • Pankaj JainAr VinodhKlaus Mueller
    • Pankaj JainAr VinodhKlaus Mueller
    • G06Q40/00G06Q40/06G06F17/30G06F3/048
    • G06Q40/00G06Q40/06
    • Object differentiation used in the context of complex financial instruments and financial instrument management software is described. A computer-implemented method for the management of complex financial instruments using object differentiation is described. A processor may parse a data object stored on a computer-readable storage medium into a plurality of subparts. The data object may represent a single complex financial instrument. An object differentiation key may be retrieved for each of the plurality of subparts. Using at least the retrieved object differentiation keys, a key figure may be generated for each of the plurality of subparts. A list of the plurality of subparts and the generated key figures may be displayed.
    • 描述了在复杂金融工具和金融工具管理软件的背景下使用的对象差异。 描述了使用对象差异来管理复杂金融工具的计算机实现的方法。 处理器可以将存储在计算机可读存储介质上的数据对象解析成多个子部分。 数据对象可以代表单一复杂的金融工具。 可以针对多个子部件中的每一个检索对象差异键。 使用至少检索到的对象微分键,可以为多个子部件中的每一个产生关键图。 可以显示多个子部分和生成的关键数字的列表。
    • 6. 发明申请
    • SELECTION OF OPTIMAL VIEWS FOR COMPUTED TOMOGRAPHY RECONSTRUCTION
    • 选择计算机图像重建的最佳视图
    • US20110019791A1
    • 2011-01-27
    • US12842274
    • 2010-07-23
    • Klaus Mueller
    • Klaus Mueller
    • G01N23/00
    • G01N23/046A61B6/583G01N2223/419G01N2223/612
    • Methods of making iterative low-dose computed tomography (CT) efficient and applicable to clinical practice employ selection of optimal views for CT reconstruction. By optimizing the views for CT reconstruction, the method of the present invention can generate reconstructions at a pre-specified low radiation dose and/or in near real-time. A feature-oriented framework for a task-driven, object-driven, and dose-minimizing selection of X-ray views is provided, which can utilize models of features to be mapped. The models can be derived from a patient population to minimize the dose per exam and/or from a specific patient to minimize the dose per procedure. The method of the present disclosure can be incorporated into a CT system, or can be embodied in a data storage medium as a program.
    • 迭代低剂量计算机断层扫描(CT)有效并适用于临床实践的方法采用CT重建的最佳视图选择。 通过优化CT重建的视图,本发明的方法可以以预先规定的低辐射剂量和/或近实时地产生重建。 提供了面向特征的框架,用于任务驱动,对象驱动和剂量最小化的X射线视图选择,可以利用要映射的特征模型。 模型可以来自患者群体,以使每次检查和/或特定患者的剂量最小化,以使每个程序的剂量最小化。 本公开的方法可以并入CT系统中,或者可以作为程序体现在数据存储介质中。
    • 9. 发明授权
    • Method and device for triggering a fuel injector
    • 用于触发燃油喷射器的方法和装置
    • US06785112B2
    • 2004-08-31
    • US09979353
    • 2002-08-08
    • Rolf ReischlAndreas EichendorfUlf PischkeJuergen EckhardtKlaus Mueller
    • Rolf ReischlAndreas EichendorfUlf PischkeJuergen EckhardtKlaus Mueller
    • H01H4700
    • F02D41/20F02D2041/2003F02D2041/2006F02D2041/2013
    • A method and device for triggering a solenoid valve for injecting fuel into an internal combustion engine is described. The triggering phase of the solenoid valve is subdivided into a pull-up phase and a holding phase. During the pull-up phase, a valve needle of the solenoid valve is caused to open by a first current intensity flowing through a magnetic coil of the solenoid valve. During the holding phase, the valve needle is held in the open state by a second, lower current intensity flowing through the magnetic coil. At least once at the beginning of the pull-up phase, a booster phase is activated during which a pulse-shaped booster current from a booster capacitor charged to a high voltage flows through the magnetic coil. During the triggering phase of the solenoid valve, a plurality of booster pulses are activated in succession, whose time position within the triggering phase is freely selectable.
    • 描述了用于触发用于将燃料喷射到内燃机中的电磁阀的方法和装置。 电磁阀的触发相分为上拉阶段和保持阶段。 在上拉阶段期间,电磁阀的阀针被流过电磁阀的电磁线圈的第一电流强度打开。 在保持阶段期间,阀针通过流过电磁线圈的第二低电流强度保持在打开状态。 在上拉阶段开始时至少一次,激活升压阶段,在此期间,来自被充电到高电压的升压电容器的脉冲形增强器电流流过电磁线圈。 在电磁阀的触发阶段期间,多个升压脉冲被连续地激活,其触发阶段内的时间位置是可自由选择的。