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    • 1. 发明授权
    • System and method to visualize measuring and dosing operations
    • 可视化测量和计量操作的系统和方法
    • US09121750B2
    • 2015-09-01
    • US12968304
    • 2010-12-15
    • Jochen RodeBernhard Wolf
    • Jochen RodeBernhard Wolf
    • G01G23/37
    • G01G23/3721
    • Various embodiments of systems and methods to visualize measuring and dosing operations are described herein. In various embodiments, a computer user interface including a gauge bar, a progress bar, and a target value in combination with a weighing device may be used to measure and dose elements. In one embodiment the method ensures precise and fast dosing when weighing an element. In various embodiments, configuring a mapping function allows numerous combinations of a speed of progress of a progress bar when weighing an element. A progress bar, in combination with acceptable weight values, such as a target value, a primary minimum value, and a primary maximum value allows for color representation when a progress bar enters and exits acceptable weight values. Configuring a set or a plurality set of secondary minimum and maximum values is possible for additional acceptable weight values.
    • 本文描述了用于可视化测量和计量操作的系统和方法的各种实施例。 在各种实施例中,可以使用包括计量棒,进度条和与称重装置结合的目标值的计算机用户界面来测量和剂量元件。 在一个实施方案中,该方法在称量元件时确保精确和快速的给药。 在各种实施例中,配置映射功能允许当称量元素时进度条的进度速度的许多组合。 进度条与可接受的重量值(如目标值,初级最小值和主要最大值)相结合,允许进度条进入并退出可接受的重量值时的颜色表示。 配置一组或多组次要最小值和最大值对于其他可接受的权重值是可能的。
    • 2. 发明申请
    • AUTOMATIC CONVERSION OF UNITS OF MEASURE DURING DATA STREAM PROCESSING
    • 在数据流处理过程中自动转换测量单位
    • US20150081672A1
    • 2015-03-19
    • US14031750
    • 2013-09-19
    • BERNHARD WOLFAndre PreussnerRaik HartungArne SchrammJohannes Hoenger
    • BERNHARD WOLFAndre PreussnerRaik HartungArne SchrammJohannes Hoenger
    • G06F17/30
    • G06F17/30516
    • Data streams are received for processing by a query. The query is associated with expected input data stream types and expected output data stream types. The received data streams are evaluated to determine if they correspond to the expected data stream types. If the received data stream types define data for a physical quantity that is defined in a unit of measure that is not the expected unit of measure, then unit conversion is required. Predefined mappings are utilized for performing required unit conversions and an optimal solution for conversion is determined The unit conversions are performed automatically by unit conversion operators that are integrated within the process of generating of a runnable query. The runnable query is deployed and executed to generate result output streams that match the expected output stream type.
    • 接收数据流以进行查询处理。 该查询与预期的输入数据流类型和预期的输出数据流类型相关联。 对接收到的数据流进行评估,以确定它们是否对应于预期的数据流类型。 如果接收到的数据流类型定义了以不是预期计量单位的度量单位定义的物理量的数据,则需要进行单位转换。 预定义的映射用于执行所需的单位转换,并确定转换的最佳解决方案单位转换由集成在生成可运行查询的过程中的单位转换运算符自动执行。 可运行的查询被部署和执行,以生成与预期输出流类型匹配的结果输出流。
    • 3. 发明授权
    • Runtime query modification in data stream management
    • 数据流管理中的运行时查询修改
    • US08433716B2
    • 2013-04-30
    • US12550505
    • 2009-08-31
    • Bernhard WolfMartin RosjatMichael Ameling
    • Bernhard WolfMartin RosjatMichael Ameling
    • G06F7/00G06F17/30
    • G06F17/30516
    • A query may execute on stored original stream data obtained from stream data received from at least one data source. The original stream data may be deleted in association with new stream data being received. At least one operator of the query may be duplicated to obtain at least one duplicated operator, and the stored original stream data may be duplicated to obtain duplicated stream data. The at least one duplicated operator may be modified to obtain at least one modified operator and, thereby, a modified query. Original results may be determined based on execution of the at least one operator, and modified results may be determined based on execution of the at least one modified operator. The at least one operator and the original stream data may be replaced with the at least one duplicated operator and the duplicated stream data, to thereby obtain an integrated query for execution.
    • 可以对从从至少一个数据源接收的流数据获得的存储的原始流数据执行查询。 可以与正在接收的新流数据相关联地删除原始流数据。 可以复制查询的至少一个运算符以获得至少一个重复的运算符,并且可以复制所存储的原始流数据以获得重复的流数据。 可以修改至少一个重复的运算符以获得至少一个经修改的运算符,从而获得修改的查询。 可以基于至少一个操作者的执行来确定原始结果,并且可以基于至少一个修改的运算符的执行来确定修改的结果。 所述至少一个运营商和原始流数据可以被至少一个重复运营商和复制流数据替换,从而获得用于执行的综合查询。
    • 4. 发明申请
    • SYSTEM AND METHOD TO VISUALIZE MEASURING AND DOSING OPERATIONS
    • 可视化测量和操作操作的系统和方法
    • US20120159370A1
    • 2012-06-21
    • US12968304
    • 2010-12-15
    • JOCHEN RODEBernhard Wolf
    • JOCHEN RODEBernhard Wolf
    • G06F3/048
    • G01G23/3721
    • Various embodiments of systems and methods to visualize measuring and dosing operations are described herein. In various embodiments, a computer user interface including a gauge bar, a progress bar, and a target value in combination with a weighing device may be used to measure and dose elements. In one embodiment the method ensures precise and fast dosing when weighing an element. In various embodiments, configuring a mapping function allows numerous combinations of a speed of progress of a progress bar when weighing an element. A progress bar, in combination with acceptable weight values, such as a target value, a primary minimum value, and a primary maximum value allows for color representation when a progress bar enters and exits acceptable weight values. Configuring a set or a plurality set of secondary minimum and maximum values is possible for additional acceptable weight values.
    • 本文描述了用于可视化测量和计量操作的系统和方法的各种实施例。 在各种实施例中,可以使用包括计量棒,进度条和与称重装置结合的目标值的计算机用户界面来测量和剂量元件。 在一个实施方案中,该方法在称量元件时确保精确和快速的给药。 在各种实施例中,配置映射功能允许当称量元素时进度条的进度速度的许多组合。 进度条与可接受的重量值(如目标值,初级最小值和主要最大值)相结合,允许进度条进入并退出可接受的重量值时的颜色表示。 配置一组或多组次要最小值和最大值对于其他可接受的权重值是可能的。
    • 6. 发明申请
    • Deployment planning of components in heterogeneous environments
    • 组件在异构环境中的部署规划
    • US20080306798A1
    • 2008-12-11
    • US11810357
    • 2007-06-05
    • Juergen AnkeGregor HackenbroichBernhard Wolf
    • Juergen AnkeGregor HackenbroichBernhard Wolf
    • G05B19/02G06Q90/00
    • G06F8/61G06F9/5061G06F9/5072G06Q10/06316G06Q10/0633
    • Deployment plans, to service execution environments, of component services associated with a composite service associated with an analysis of data generated by one or more data sources, may be determined, the composite service including an ordering of execution of the associated component services for the analysis of the data. An evaluation of each of the deployment plans of the component services may be determined based on a first metric associating one or more weighted values with a consumption by the each deployment plan of one or more respective resources associated with each of the first and second network nodes and on a second metric associating one or more weighted values with a measure of connection availability of one or more network links included in a communication path between the first and second network nodes. A recommendation including one or more of the deployment plans may be determined based on the evaluation.
    • 可以确定与服务执行环境相关联的与由一个或多个数据源生成的数据的分析相关联的组合服务的组件服务,所述组合服务包括用于分析的相关组件服务的执行顺序 的数据。 可以基于将一个或多个加权值与由每个部署计划的消费相关联的一个或多个相应资源与第一和第二网络节点中的每一个相关联的第一度量来确定对组件服务的每个部署计划的评估 以及第二度量,其将一个或多个加权值与包括在所述第一和第二网络节点之间的通信路径中的一个或多个网络链路的连接可用性的度量相关联。 可以基于评估来确定包括一个或多个部署计划的建议。
    • 9. 发明授权
    • Measuring device
    • 测量工具
    • US06413474B1
    • 2002-07-02
    • US09441769
    • 1999-11-17
    • Günter IgelUlrich SiebenJürgen GiehlBernhard Wolf
    • Günter IgelUlrich SiebenJürgen GiehlBernhard Wolf
    • G01N1506
    • G01L19/147H01L2224/16225H01L2924/00014H01L2224/0401
    • A measuring device (1) has a semiconductor arrangement, which includes a semiconductor chip (2) connected to a carrier (4) having at least one through-hole (3). The semiconductor chip (2) has at least one sensor (6) with an active sensor surface (5) facing the through-hole (3). The semiconductor chip (2) has electrical terminal points (9), which are connected using flip-chip connections (10) to terminal contacts (11) facing the terminal points (9) and located on the carrier (4). The carrier (4) has electrical strip conductors (12), which connect the terminal contacts (11) to contact elements (13) located on the carrier. To the rear side of the carrier (4) having the contact elements (13) a strip conductor carrier (16) is provided, which has strip conductors (12) connected to opposing contacts (14). The opposing contacts (14) are each electrically connected using flip-chip connections (17), to a contact element (13), which are allocated to each of them. The semiconductor chip (2) and the carrier (4) enclose a measuring chamber. Between the carrier (4) and the semiconductor chip (2) a seal (7) is arranged, which is constructed to be porous or semi-porous, at least in certain areas, or is constructed as a selectively permeable membrane, for bringing a substance into the measuring chamber.
    • 测量装置(1)具有半导体装置,其包括连接到具有至少一个通孔(3)的载体(4)的半导体芯片(2)。 半导体芯片(2)具有至少一个具有面向通孔(3)的有源传感器表面(5)的传感器(6)。 半导体芯片(2)具有电气端点(9),它们使用倒装芯片连接(10)连接到面向终端点(9)并位于载体(4)上的端子触点(11)。 载体(4)具有将端子触点(11)连接到位于载体上的接触元件(13)的电条导体(12)。 在具有接触元件(13)的载体(4)的后侧设置带状导体载体(16),该带状导体载体(16)具有连接到相对触点(14)的带状导体(12)。 每个相对的触点(14)都使用倒装芯片连接(17)电连接到分配给它们中的每一个的接触元件(13)。 半导体芯片(2)和载体(4)包围测量室。 在载体(4)和半导体芯片(2)之间,至少在某些区域中布置密封件(7),其被构造为多孔或半孔的,或被构造为选择性渗透膜,用于使 物质进入测量室。
    • 10. 发明授权
    • Specimen slide for a microscope
    • 标本用于显微镜
    • US5851489A
    • 1998-12-22
    • US737688
    • 1996-11-15
    • Bernhard WolfWerner BaumannAlfred DumbsGerd SulzUlrich Sieben
    • Bernhard WolfWerner BaumannAlfred DumbsGerd SulzUlrich Sieben
    • B01L3/00B01L9/00C12M1/34G01N27/30G01N33/48
    • B01L3/502715C12M23/12C12M41/36B01L2200/027B01L2300/0822B01L2300/163B01L2300/1827B01L3/502707B01L9/527
    • A specimen slide (1) for a microscope, camera or other such observation device has a receiving area (2) for cell or tissue samples or other such organic material and a smaller observation area (3) for the organic material. The specimen slide (1) at least in the observation area is made of transparent material. Within the receiving area (2) the specimen slide (1) is provided with thin-film sensors (6 to 12) adjacent to the observation area (3) for measuring physiological parameters of the organic material. The chemical and physical characteristics of the organic material under observation can be picked up by the sensors while it is observed, for example under a microscope. Sensors of differing types can be provided, such as interdigital capacitors (6), NO sensors (8), O.sub.2 sensors (9) or temperature sensors (11), thereby making available important physiological measurement and/or control parameters.
    • PCT No.PCT / EP95 / 01822 Sec。 371日期1996年11月15日 102(e)日期1996年11月15日PCT提交1995年5月13日PCT公布。 WO95 / 31716 PCT出版物 1995年11月23日,用于显微镜,照相机或其它观察装置的标本片(1)具有用于细胞或组织样品或其它这种有机材料的接收区域(2)和用于有机材料的较小观察面积(3) 。 至少在观察区域中的标本滑块(1)由透明材料制成。 在接收区域(2)内,样本滑块(1)设置有与观察区域(3)相邻的薄膜传感器(6至12),用于测量有机材料的生理参数。 观察到的有机材料的化学和物理特性可以在例如在显微镜下观察时由传感器拾取。 可以提供不同类型的传感器,例如叉指电容器(6),NO传感器(8),O2传感器(9)或温度传感器(11),从而提供重要的生理测量和/或控制参数。