公开(公告)号：US20080066053A1

公开(公告)日：2008-03-13

申请号：US11930784

申请日：2007-10-31

Applicant: Subramanian Ramamoorthy ,  Lothar Wenzel ,  Gregory Morrow ,  Michael Santori ,  John Limroth ,  Ram Kudukoli ,  Robert Dye

Inventor： Subramanian Ramamoorthy ,  Lothar Wenzel ,  Gregory Morrow ,  Michael Santori ,  John Limroth ,  Ram Kudukoli ,  Robert Dye

IPC: G06F9/45 ,  G06F9/44

CPC classification number: H04L29/06 ,  G05B19/0426 ,  G05B2219/23008 ,  G05B2219/23258 ,  G05B2219/40099 ,  H04L67/12 ,  H04L69/329 ,  Y10S715/967

Abstract: A system and method for automatically generating a second graphical program based on a first graphical program. The first graphical program may be associated with a first programming development environment. For example, a user may have interactively created the first graphical program from within the first programming development environment, e.g., by using an editor to place various nodes on a block diagram, such that the nodes visually indicate functionality of the first graphical program. The method may operate to automatically, i.e., automatically, generate a second graphical program based on the first graphical program, such that the second graphical program is associated with a second programming development environment. The method may generate the second graphical program automatically, without relying on user input, or may prompt for user input to determine various options to use in generating the second graphical program. The second graphical program may implement the functionality of, or a portion of the functionality of, the first graphical program. The method preferably generates the second graphical program such that the second programming development environment is operable to treat the second graphical program identically to a graphical program interactively developed by a user using the second programming development environment. Thus, once the second graphical program has been generated, the user may use the second programming development environment to edit the second graphical program, execute the second graphical program, etc.

Abstract translation: 一种用于基于第一图形程序自动生成第二图形程序的系统和方法。 第一图形程序可以与第一编程开发环境相关联。 例如，用户可以例如通过使用编辑器将各种节点放置在框图上，从而在第一编程开发环境内交互地创建第一图形程序，使得节点可视地指示第一图形程序的功能。 该方法可以自动操作，即，基于第一图形程序自动生成第二图形程序，使得第二图形程序与第二编程开发环境相关联。 该方法可以自动地生成第二图形程序，而不依赖于用户输入，或者可以提示用户输入来确定用于生成第二图形程序的各种选项。 第二图形程序可以实现第一图形程序的功能或功能的一部分。 该方法优选地生成第二图形程序，使得第二编程开发环境可操作以将第二图形程序与使用第二编程开发环境的用户交互式开发的图形程序相同地处理。 因此，一旦生成了第二图形程序，用户可以使用第二编程开发环境来编辑第二图形程序，执行第二图形程序等。

公开(公告)号：US20080031524A1

公开(公告)日：2008-02-07

申请号：US11851477

申请日：2007-09-07

Applicant: Lothar Wenzel

Inventor： Lothar Wenzel

IPC: G06K9/62

CPC classification number: G06K9/48 ,  G06K9/42 ,  G06K9/6203 ,  G06K9/6204 ,  G06K2009/484

Abstract: System and method for estimating a rotational shift between a first discrete curve and a second discrete curve, where the second discrete curve is a rotationally shifted version of the first discrete curve. First and second discrete curves are received. A rotational shift between the first discrete curve and the second discrete curve is estimated based on the first discrete curve and the second discrete curve. A cumulative rotational shift is updated based on the estimated rotational shift. A rotationally shifted version of the second discrete curve is generated based on the cumulative rotational shift. The estimating, updating, and generating are performed in an iterative manner using the respective rotationally shifted discrete curve for each iteration until a stopping condition occurs, thereby determining a final estimate of the rotational shift between the first discrete curve and the second discrete curve. The final estimate may be used to perform curve matching.

Abstract translation: 用于估计第一离散曲线和第二离散曲线之间的旋转移动的系统和方法，其中第二离散曲线是第一离散曲线的旋转移位版本。 接收第一和第二离散曲线。 基于第一离散曲线和第二离散曲线来估计第一离散曲线和第二离散曲线之间的旋转移动。 基于估计的旋转移位来更新累积旋转移位。 基于累积旋转移位产生第二离散曲线的旋转移位版本。 以迭代方式使用相应的旋转移位离散曲线进行估计，更新和生成，直到发生停止条件，从而确定第一离散曲线和第二离散曲线之间的旋转移位的最终估计。 最终估计可用于执行曲线匹配。

公开(公告)号：US07327887B2

公开(公告)日：2008-02-05

申请号：US10430546

申请日：2003-05-06

Applicant: Lothar Wenzel

Inventor： Lothar Wenzel

IPC: G06K9/62 ,  G06K9/36 ,  G06K9/32

CPC classification number: G06K9/48 ,  G06K9/42 ,  G06K9/6203 ,  G06K9/6204 ,  G06K2009/484

Abstract: System and method for estimating a rotational shift between a first discrete curve and a second discrete curve, where the second discrete curve is a rotationally shifted version of the first discrete curve. First and second discrete curves are received. A rotational shift between the first discrete curve and the second discrete curve is estimated based on the first discrete curve and the second discrete curve. A cumulative rotational shift is updated based on the estimated rotational shift. A rotationally shifted version of the second discrete curve is generated based on the cumulative rotational shift. The estimating, updating, and generating are performed in an iterative manner using the respective rotationally shifted discrete curve for each iteration until a stopping condition occurs, thereby determining a final estimate of the rotational shift between the first discrete curve and the second discrete curve. The final estimate may be used to perform curve matching.

Abstract translation: 用于估计第一离散曲线和第二离散曲线之间的旋转移动的系统和方法，其中第二离散曲线是第一离散曲线的旋转移位版本。 接收第一和第二离散曲线。 基于第一离散曲线和第二离散曲线来估计第一离散曲线和第二离散曲线之间的旋转移动。 基于估计的旋转移位来更新累积旋转移位。 基于累积旋转移位产生第二离散曲线的旋转移位版本。 以迭代方式使用相应的旋转移位离散曲线进行估计，更新和生成，直到发生停止条件，从而确定第一离散曲线和第二离散曲线之间的旋转移位的最终估计。 最终估计可用于执行曲线匹配。

公开(公告)号：US07212673B2

公开(公告)日：2007-05-01

申请号：US10454940

申请日：2003-06-05

Applicant: Lothar Wenzel

Inventor： Lothar Wenzel

IPC: G06K9/46 ,  G06K9/62

CPC classification number: G06K9/52 ,  G06K9/4604 ,  G06K9/48

Abstract: System and method for characterizing configurations of discrete curves based on detected symmetries in the configuration. A configuration of discrete closed curves is received. A plurality of configuration rotational symmetry sub-groups of the configuration are determined, each associated with one or more of the discrete curves, and based on each curve's distance from a configuration center of mass, equivalence class, rotational symmetry group, and sub-configuration rotational symmetry group. The configuration rotational symmetry sub-groups are determined by normalizing the configuration, including determining a configuration center of mass, determining the equivalence class and rotational symmetry group for each discrete curve, determining one or more subsets of the discrete curves based on each discrete curve's equivalence class and distance from the configuration center of mass, and determining configuration rotational symmetry sub-groups for each of the subsets based on each curve's rotational symmetry group, and relative orientations of the discrete curves in the subset.

Abstract translation: 基于配置中检测到的对称性来表征离散曲线的配置的系统和方法。 接收离散闭合曲线的配置。 确定配置的多个配置旋转对称子组，每个与一个或多个离散曲线相关联，并且基于每个曲线与配置质心，等效类，旋转对称组和子配置的距离 旋转对称组。 配置旋转对称子组通过对配置进行归一化来确定，包括确定配置质心，确定每个离散曲线的等价类和旋转对称组，基于每个离散曲线的等价度确定离散曲线的一个或多个子集 根据每个曲线的旋转对称组以及该子集中的离散曲线的相对取向确定每个子集的配置旋转对称子组。

公开(公告)号：US07043693B2

公开(公告)日：2006-05-09

申请号：US09742510

申请日：2000-12-20

Applicant: Lothar Wenzel ,  Subramanian Ramamoorthy ,  Gregory O. Morrow ,  Michael L. Santori ,  John C. Limroth ,  Ram Kudukoli ,  Robert E. Dye

Inventor： Lothar Wenzel ,  Subramanian Ramamoorthy ,  Gregory O. Morrow ,  Michael L. Santori ,  John C. Limroth ,  Ram Kudukoli ,  Robert E. Dye

IPC: G06F3/00

CPC classification number: G06F8/34 ,  G05B2219/23008 ,  G05B2219/23258 ,  G05B2219/40099 ,  G11B25/043 ,  H04L29/06 ,  H04L67/12 ,  H04L69/329 ,  Y10S715/967

Abstract: System and method for programmatically generating a second graphical program associated with a second programming development environment based on a first graphical program associated with a first programming development environment. The second graphical program may be generated programmatically, without relying on user input, or may prompt for user input to determine various options to use in generating the second graphical program. The second graphical program may implement the functionality of, or a portion of the functionality of, the first graphical program. The method preferably generates the second graphical program such that the second programming development environment is operable to treat the second graphical program identically to a graphical program interactively developed by a user using the second programming development environment. Thus, once the second graphical program has been generated, the user may use the second programming development environment to edit the second graphical program, execute the second graphical program, etc.

Abstract translation: 用于基于与第一编程开发环境相关联的第一图形程序以编程方式生成与第二编程开发环境相关联的第二图形程序的系统和方法。 第二图形程序可以以编程方式生成，而不依赖于用户输入，或者可以提示用户输入来确定用于生成第二图形程序的各种选项。 第二图形程序可以实现第一图形程序的功能或功能的一部分。 该方法优选地生成第二图形程序，使得第二编程开发环境可操作以将第二图形程序与使用第二编程开发环境的用户交互式开发的图形程序相同地处理。 因此，一旦生成了第二图形程序，用户可以使用第二编程开发环境来编辑第二图形程序，执行第二图形程序等。

公开(公告)号：US09135497B2

公开(公告)日：2015-09-15

申请号：US13359950

申请日：2012-01-27

Applicant: Michael D. Cerna ,  James C. Nagle ,  Qing Ruan ,  Darren R. Schmidt ,  Lothar Wenzel

Inventor： Michael D. Cerna ,  James C. Nagle ,  Qing Ruan ,  Darren R. Schmidt ,  Lothar Wenzel

IPC: G01N33/48 ,  G06K9/00 ,  C12Q1/68 ,  C12M1/34 ,  G06K9/20 ,  G06K9/32 ,  G06K9/34 ,  G06K9/36 ,  G06F19/22

CPC classification number: G06K9/00147 ,  G06F19/22 ,  G06K9/00577

Abstract: Performing sequencing of a polynucleotide. A first image of microparticles that are distributed in a random fashion on a substrate may be received. Each of the microparticles may include a plurality of similar oligonucleotides of the polynucleotide. A second image of the microparticles may be received. A plurality of first subportions of the first image may be determined. Each subportion may include a respective plurality of microparticles distributed in a random fashion. The second image may be analyzed to identify a plurality of second subportions in the second image. Each of the plurality of second subportions may correspond to a respective one of the plurality of first subportions. A plurality of the microparticles may be matched from the first and second images based on said analyzing. At least a portion of the sequence of nucleotides of the polynucleotide may be determined based on said matching.

Abstract translation: 进行多核苷酸的测序。 可以接收在衬底上以随机方式分布的微粒的第一图像。 每个微粒可以包括多个与多核苷酸相似的寡核苷酸。 可以接收微粒的第二图像。 可以确定第一图像的多个第一子部分。 每个子部分可以包括以随机方式分布的相应的多个微粒。 可以分析第二图像以识别第二图像中的多个第二子部分。 多个第二子部分中的每一个可以对应于多个第一子部分中的相应一个。 基于所述分析，可以从第一和第二图像匹配多个微粒。 可以基于所述匹配来确定多核苷酸的核苷酸序列的至少一部分。

公开(公告)号：US08364446B2

公开(公告)日：2013-01-29

申请号：US12577357

申请日：2009-10-12

Applicant: James M. Lewis ,  Michael D. Cerna ,  Kyle P. Gupton ,  James C. Nagle ,  Yong Rao ,  Subramanian Ramamoorthy ,  Darren R. Schmidt ,  Bin Wang ,  Benjamin R. Weidman ,  Lothar Wenzel ,  Naxiong Zhang

Inventor： James M. Lewis ,  Michael D. Cerna ,  Kyle P. Gupton ,  James C. Nagle ,  Yong Rao ,  Subramanian Ramamoorthy ,  Darren R. Schmidt ,  Bin Wang ,  Benjamin R. Weidman ,  Lothar Wenzel ,  Naxiong Zhang

IPC: G06F17/10

CPC classification number: G06F17/10 ,  G06F17/5045

Abstract: System and method for approximating a system. A multi-parameter representation of a family of systems is stored. An embedding of the family into an abstract geometrical continuous space with a metric and defined by the parameters is determined. Coordinates of the space specify values for the parameters of systems of the family. The space includes a grid of points representing respective discrete approximations of the systems. A first point corresponding to a desired instance of a system is determined. The first point's coordinates specify values for the parameters of the instance. The space is sampled using a mapping of a well-distributed point set from a Euclidean space of the parameters to the abstract space. A nearest discrete point to the first point is determined which specifies values for parameters for an optimal discrete approximation of the desired instance, which are useable to implement the discrete approximation of the desired instance.

Abstract translation: 用于逼近系统的系统和方法。 存储一系列系统的多参数表示。 确定家族嵌入到具有度量并由参数定义的抽象几何连续空间中。 空间的坐标指定系列系统参数的值。 该空间包括表示系统各自的离散近似的点的网格。 确定对应于系统的期望实例的第一点。 第一点的坐标指定实例参数的值。 使用从参数的欧几里德空间到抽象空间的良好分布的点集的映射来对空间进行采样。 确定到第一点的最近离散点，其指定用于期望实例的最佳离散近似的参数的值，其可用于实现期望实例的离散近似。

公开(公告)号：US20090241089A1

公开(公告)日：2009-09-24

申请号：US12411285

申请日：2009-03-25

Applicant: Subramanian Ramamoorthy ,  Lothar Wenzel ,  Gregory O. Morrow ,  Michael L. Santori ,  John C. Limroth ,  Ram Kudukoli ,  Robert E. Dye

Inventor： Subramanian Ramamoorthy ,  Lothar Wenzel ,  Gregory O. Morrow ,  Michael L. Santori ,  John C. Limroth ,  Ram Kudukoli ,  Robert E. Dye

IPC: G06F9/44 ,  G06F3/048

CPC classification number: G05B19/0426 ,  G05B2219/23008 ,  G05B2219/23258 ,  G05B2219/40099 ,  H04L29/06 ,  H04L67/12 ,  H04L69/329

Abstract: System and method for programmatically generating a second graphical program associated with a second programming development environment based on a first graphical program associated with a first programming development environment. The second graphical program may be generated programmatically, without relying on user input, or may prompt for user input to determine various options to use in generating the second graphical program. The second graphical program may implement the functionality of, or a portion of the functionality of, the first graphical program. The method preferably generates the second graphical program such that the second programming development environment is operable to treat the second graphical program identically to a graphical program interactively developed by a user using the second programming development environment. Thus, once the second graphical program has been generated, the user may use the second programming development environment to edit the second graphical program, execute the second graphical program, etc.

Abstract translation: 用于基于与第一编程开发环境相关联的第一图形程序以编程方式生成与第二编程开发环境相关联的第二图形程序的系统和方法。 第二图形程序可以以编程方式生成，而不依赖于用户输入，或者可以提示用户输入来确定用于生成第二图形程序的各种选项。 第二图形程序可以实现第一图形程序的功能或功能的一部分。 该方法优选地生成第二图形程序，使得第二编程开发环境可操作以将第二图形程序与使用第二编程开发环境的用户交互式开发的图形程序相同地处理。 因此，一旦生成了第二图形程序，用户可以使用第二编程开发环境来编辑第二图形程序，执行第二图形程序等。

公开(公告)号：US20090074299A1

公开(公告)日：2009-03-19

申请号：US12258708

申请日：2008-10-27

Applicant: Lothar Wenzel

Inventor： Lothar Wenzel

IPC: G06K9/46 ,  G06K9/00

CPC classification number: G06K9/42 ,  G06K9/3275 ,  G06K9/48 ,  G06K9/6204 ,  G06K2009/484

Abstract: System and method for estimating a rotational shift between a first discrete curve and a second discrete curve, where the second discrete curve is a rotationally shifted version of the first discrete curve. First and second discrete curves are received. A rotational shift between the first discrete curve and the second discrete curve is estimated based on the first discrete curve and the second discrete curve. A cumulative rotational shift is updated based on the estimated rotational shift. A rotationally shifted version of the second discrete curve is generated based on the cumulative rotational shift. The estimating, updating, and generating are performed in an iterative manner using the respective rotationally shifted discrete curve for each iteration until a stopping condition occurs, thereby determining a final estimate of the rotational shift between the first discrete curve and the second discrete curve. The final estimate may be used to perform curve matching.

Abstract translation: 用于估计第一离散曲线和第二离散曲线之间的旋转移动的系统和方法，其中第二离散曲线是第一离散曲线的旋转移位版本。 接收第一和第二离散曲线。 基于第一离散曲线和第二离散曲线来估计第一离散曲线和第二离散曲线之间的旋转移动。 基于估计的旋转移位来更新累积旋转移位。 基于累积旋转移位产生第二离散曲线的旋转移位版本。 以迭代方式使用相应的旋转移位离散曲线进行估计，更新和生成，直到发生停止条件，从而确定第一离散曲线和第二离散曲线之间的旋转移位的最终估计。 最终估计可用于执行曲线匹配。

公开(公告)号：US20080022264A1

公开(公告)日：2008-01-24

申请号：US11539449

申请日：2006-10-06

Applicant: Grant V. Macklem ,  Lothar Wenzel ,  Rishi H. Gosalia ,  James T. Juhasz ,  Ricardo Dunia

Inventor： Grant V. Macklem ,  Lothar Wenzel ,  Rishi H. Gosalia ,  James T. Juhasz ,  Ricardo Dunia

IPC: G06F9/45

CPC classification number: G06F8/34

Abstract: Automatic conversion of textual program code to graphical program code is performed. The method automatically translates the given functionality of a textual program code into executable graphical program code, corresponding to the same functionality. The method includes a parsing routine that generates a syntax tree and code generation routines, which create graphical program code from the syntax tree.

Abstract translation: 文本程序代码自动转换为图形程序代码。 该方法自动将文本程序代码的给定功能转换为对应于相同功能的可执行图形程序代码。 该方法包括生成语法树和代码生成例程的解析例程，它从语法树创建图形程序代码。