公开(公告)号：US07951205B2

公开(公告)日：2011-05-31

申请号：US12552818

申请日：2009-09-02

Applicant: Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

Inventor： Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

IPC: A61F2/36

CPC classification number: A61F2/4684 ,  A61F2/367 ,  A61F2/3676 ,  A61F2002/30604 ,  A61F2002/30616 ,  A61F2002/3625 ,  A61F2002/3652 ,  A61F2002/3674

Abstract: A system and method for trialing a modular hip replacement system permits evaluation and replication of the anatomic anteversion rotational angle of the femur. In one embodiment, a femoral hip implant kit includes at least one distal implant and a plurality of femoral heads, each of the plurality of femoral heads having a diameter different from the diameter of the other of the plurality of femoral heads. The kit includes a proximal trial housing with a bore within the housing, the bore configured to receive a portion of the distal implant, a collet located within the bore, the collet including an outer wall portion extending between a top surface portion and a bottom surface portion, a collapsing member for engaging the portion of the distal implant and for forcing the top surface portion of the collet toward the bottom surface portion of the collet along a first axis.

Abstract translation: 用于试验模块化髋关节置换系统的系统和方法允许评估和复制股骨的解剖前倾旋转角度。 在一个实施例中，股骨髋关节植入物套件包括至少一个远端植入物和多个股骨头，多个股骨头中的每一个具有不同于多个股骨头中另一个的直径的直径。 该套件包括在壳体内具有孔的近端试验壳体，构造成容纳远端植入物的一部分的孔，位于孔内的夹头，夹头包括在顶表面部分和底表面之间延伸的外壁部分 部分，用于接合所述远端植入物的所述部分并且用于迫使所述夹头的顶表面部分沿着第一轴线朝向所述夹头的底表面部分的塌缩构件。

公开(公告)号：US20080125867A1

公开(公告)日：2008-05-29

申请号：US11605099

申请日：2006-11-28

Applicant: Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

Inventor： Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

IPC: A61F2/32 ,  A61F2/36

CPC classification number: A61F2/4684 ,  A61F2/367 ,  A61F2/3676 ,  A61F2002/30604 ,  A61F2002/30616 ,  A61F2002/3625 ,  A61F2002/3652 ,  A61F2002/3674

Abstract: A system and method for trialing a modular hip replacement system permits evaluation and replication of the anatomic anteversion rotational angle of the femur. In one embodiment, a femoral hip implant kit includes at least one distal implant and a plurality of femoral heads, each of the plurality of femoral heads having a diameter different from the diameter of the other of the plurality of femoral heads. The kit includes a proximal trial housing with a bore within the housing, the bore configured to receive a portion of the distal implant, a collet located within the bore, the collet including an outer wall portion extending between a top surface portion and a bottom surface portion, a collapsing member for engaging the portion of the distal implant and for forcing the top surface portion of the collet toward the bottom surface portion of the collet along a first axis.

Abstract translation: 用于试验模块化髋关节置换系统的系统和方法允许评估和复制股骨的解剖前倾旋转角度。 在一个实施例中，股骨髋关节植入物套件包括至少一个远端植入物和多个股骨头，多个股骨头中的每一个具有不同于多个股骨头中另一个的直径的直径。 该套件包括在壳体内具有孔的近端试验壳体，构造成容纳远端植入物的一部分的孔，位于孔内的夹头，夹头包括在顶表面部分和底表面之间延伸的外壁部分 部分，用于接合所述远端植入物的所述部分并且用于迫使所述夹头的顶表面部分沿着第一轴线朝向所述夹头的底表面部分的塌缩构件。

公开(公告)号：US07258302B2

公开(公告)日：2007-08-21

申请号：US10871310

申请日：2004-06-18

Applicant: Robert Jonathan Carr ,  James Michael Higgins

Inventor： Robert Jonathan Carr ,  James Michael Higgins

IPC: B64C39/12

CPC classification number: B64C3/46 ,  B64C39/066 ,  B64C39/068 ,  Y02T50/14

Abstract: An aircraft designed with three wings located on either side of the fuselage. The forward wing has a downward angle with a curved top and bottom surface. The upper wing is located towards the rear of the aircraft and above the forward wing. The lower wing is located below the upper wing and slightly forward. It is also located to the rear and below of the forward wing. The outer ends of all three wings come into contact at one point. The forward wing uses the Coanda effect to increase the airflow across the top surface of the bottom wing. The aircraft can be designed so that it is large enough to carry people and/or cargo, or to be small enough to be flown as a toy aircraft. The like design can use any type of aircraft engine commonly used today. One embodiment of the aircraft has two turbines, shaft-coupled to a power source, located on either side of the forward end of the fuselage. Each engine has part of its thrust diverted through and directed by a plenum disposed internal of the coanda toward both sides of the fuselage so that an equal amount of thrust flows through the duct and over the wings on either side of the fuselage. This ensures equal lift on the coanda and both wings on either side of the fuselage in the event that one engine malfunctions.

Abstract translation: 设计有三个机翼的飞机位于机身两侧。 前翼具有向下的角度，具有弯曲的顶部和底部表面。 上翼位于飞机的后方，位于前翼的上方。 下翼位于上翼下方，稍微向前。 它也位于前翼的后方和下方。 所有三个翼的外端在一点接触。 前翼使用柯恩达效应来增加穿过底翼顶表面的气流。 该飞机可以设计成足够大以携带人和/或货物，或者足够小以作为玩具飞机飞行。 类似的设计可以使用今天普遍使用的任何类型的飞机引擎。 飞机的一个实施例具有两个位于机身前端两侧的与电源轴耦合的涡轮机。 每个发动机的一部分推力通过设置在机身内部的整流室并通过机身的两侧而被引导，以使等量的推力流过机身的导管和机身的两侧。 如果一个发动机发生故障，这样可以确保机身两侧的平均升力和机身两侧的两翼。

公开(公告)号：US20060165256A1

公开(公告)日：2006-07-27

申请号：US11286154

申请日：2005-11-23

Applicant: Jonathan Carr ,  Burt Perry ,  Geoffrey Rhoads

Inventor： Jonathan Carr ,  Burt Perry ,  Geoffrey Rhoads

IPC: G06K9/00

CPC classification number: B42D25/333 ,  B29C45/1418 ,  B42D25/00 ,  B42D25/21 ,  B42D25/23 ,  B42D25/24 ,  B42D25/313 ,  B42D2035/06 ,  G06F17/30876 ,  G06K1/121 ,  G06K7/1417 ,  G06K7/1447 ,  G06K19/06037 ,  G06K19/06046 ,  G06K19/14 ,  G06K2017/0064 ,  G06K2019/06253 ,  G06Q20/341 ,  G06Q20/40145 ,  G06T1/0071 ,  G06T2201/0051 ,  G07C9/00087 ,  G07C2209/41 ,  G07D7/0034 ,  G07D7/004 ,  G07F7/086 ,  G07F7/1008 ,  G10L19/018 ,  G11B20/00891 ,  H04N1/00846 ,  H04N1/32144 ,  H04N1/32203 ,  H04N1/32208 ,  H04N1/32219 ,  H04N1/32261 ,  H04N1/32304 ,  H04N2201/3205 ,  H04N2201/3207 ,  H04N2201/3226 ,  H04N2201/3233 ,  H04N2201/3235 ,  H04N2201/3239 ,  H04N2201/327 ,  H04N2201/3271

Abstract: The present invention relates generally to validating and providing physical objects. In one implementation, a physical object includes a first digital watermark carried thereon. The first digital watermark includes a first plural-bit message representing at least a reduced-bit representation of a biometric corresponding to an authorized bearer of the physical object. The physical object further includes semantic information carried thereon. At least a portion of the semantic information corresponds to the authorized bearer of the physical object. In another implementation, an apparatus is provided to validate physical objects. In some cases the objects include identification documents.

Abstract translation: 本发明一般涉及验证和提供物理对象。 在一个实现中，物理对象包括在其上承载的第一数字水印。 第一数字水印包括表示对应于物理对象的授权承载的至少生物特征的缩减比特表示的第一多比特消息。 物理对象还包括其上承载的语义信息。 语义信息的至少一部分对应于物理对象的授权承载。 在另一实施方案中，提供了一种用于验证物理对象的装置。 在某些情况下，对象包括身份证件。

公开(公告)号：US20090326672A1

公开(公告)日：2009-12-31

申请号：US12552818

申请日：2009-09-02

Applicant: Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

Inventor： Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

IPC: A61F2/36

CPC classification number: A61F2/4684 ,  A61F2/367 ,  A61F2/3676 ,  A61F2002/30604 ,  A61F2002/30616 ,  A61F2002/3625 ,  A61F2002/3652 ,  A61F2002/3674

Abstract: A system and method for trialing a modular hip replacement system permits evaluation and replication of the anatomic anteversion rotational angle of the femur. In one embodiment, a femoral hip implant kit includes at least one distal implant and a plurality of femoral heads, each of the plurality of femoral heads having a diameter different from the diameter of the other of the plurality of femoral heads. The kit includes a proximal trial housing with a bore within the housing, the bore configured to receive a portion of the distal implant, a collet located within the bore, the collet including an outer wall portion extending between a top surface portion and a bottom surface portion, a collapsing member for engaging the portion of the distal implant and for forcing the top surface portion of the collet toward the bottom surface portion of the collet along a first axis.

Abstract translation: 用于试验模块化髋关节置换系统的系统和方法允许评估和复制股骨的解剖前倾旋转角度。 在一个实施例中，股骨髋关节植入物套件包括至少一个远端植入物和多个股骨头，多个股骨头中的每一个具有不同于多个股骨头中另一个的直径的直径。 该套件包括在壳体内具有孔的近端试验壳体，构造成容纳远端植入物的一部分的孔，位于孔内的夹头，夹头包括在顶表面部分和底表面之间延伸的外壁部分 部分，用于接合所述远端植入物的所述部分并且用于迫使所述夹头的顶表面部分沿着第一轴线朝向所述夹头的底表面部分的塌缩构件。

公开(公告)号：US07585329B2

公开(公告)日：2009-09-08

申请号：US11605099

申请日：2006-11-28

Applicant: Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

Inventor： Larry McCleary ,  Jonathan Carr ,  Joel Rhoades ,  David Daniels

IPC: A61F2/36

CPC classification number: A61F2/4684 ,  A61F2/367 ,  A61F2/3676 ,  A61F2002/30604 ,  A61F2002/30616 ,  A61F2002/3625 ,  A61F2002/3652 ,  A61F2002/3674

Abstract: A system and method for trialing a modular hip replacement system permits evaluation and replication of the anatomic anteversion rotational angle of the femur. In one embodiment, a femoral hip implant kit includes at least one distal implant and a plurality of femoral heads, each of the plurality of femoral heads having a diameter different from the diameter of the other of the plurality of femoral heads. The kit includes a proximal trial housing with a bore within the housing, the bore configured to receive a portion of the distal implant, a collet located within the bore, the collet including an outer wall portion extending between a top surface portion and a bottom surface portion, a collapsing member for engaging the portion of the distal implant and for forcing the top surface portion of the collet toward the bottom surface portion of the collet along a first axis.

Abstract translation: 用于试验模块化髋关节置换系统的系统和方法允许评估和复制股骨的解剖前倾旋转角度。 在一个实施例中，股骨髋关节植入物套件包括至少一个远端植入物和多个股骨头，多个股骨头中的每一个具有不同于多个股骨头中另一个的直径的直径。 该套件包括在壳体内具有孔的近端试验壳体，构造成容纳远端植入物的一部分的孔，位于孔内的夹头，夹头包括在顶表面部分和底表面之间延伸的外壁部分 部分，用于接合所述远端植入物的所述部分并且用于迫使所述夹头的顶表面部分沿着第一轴线朝向所述夹头的底表面部分的塌缩构件。

公开(公告)号：USD598838S1

公开(公告)日：2009-08-25

申请号：US29176839

申请日：2003-02-27

Applicant: Robert Jonathan Carr ,  James Michael Higgins

Designer： Robert Jonathan Carr ,  James Michael Higgins

公开(公告)号：US07147183B1

公开(公告)日：2006-12-12

申请号：US10762711

申请日：2004-01-22

Applicant: Robert Jonathan Carr ,  James Michael Higgins

Inventor： Robert Jonathan Carr ,  James Michael Higgins

IPC: B64C39/06

CPC classification number: B64C39/064

Abstract: The present invention provides an improved lift system for an aerial crane incorporating a wing, coanda and curved surface. The arrangement of the wing, coanda and curved surface use and induce airflow to create additional lift through an increase in airflow mass, density and velocity. A different configuration of the wing, coanda and curved surface can be used to propel a vehicle.

Abstract translation: 本发明提供了一种改进的升降机系统，用于包括机翼，共车和曲面的空中起重机。 机翼，coanda和曲面的布置使用，并引起气流，通过增加气流质量，密度和速度产生额外的提升。 可以使用机翼，联结舱和曲面的不同配置来推动车辆。

公开(公告)号：US20050008189A9

公开(公告)日：2005-01-13

申请号：US10011129

申请日：2001-11-09

Applicant: Jonathan Carr ,  Burt Perry ,  Geoffrey Rhoads

Inventor： Jonathan Carr ,  Burt Perry ,  Geoffrey Rhoads

IPC: B29C45/14 ,  B42D15/00 ,  G06F17/30 ,  G06K1/12 ,  G06K17/00 ,  G06K19/06 ,  G06K19/14 ,  G06T1/00 ,  G07D7/00 ,  G07D7/12 ,  G07F7/08 ,  G10L19/00 ,  H04N1/00 ,  H04N1/32 ,  G06K9/00

CPC classification number: B42D25/333 ,  B29C45/1418 ,  B42D25/00 ,  B42D25/21 ,  B42D25/23 ,  B42D25/24 ,  B42D25/313 ,  B42D2035/06 ,  G06F17/30876 ,  G06K1/121 ,  G06K7/1417 ,  G06K7/1447 ,  G06K19/06037 ,  G06K19/06046 ,  G06K19/14 ,  G06K2017/0064 ,  G06K2019/06253 ,  G06Q20/341 ,  G06Q20/40145 ,  G06T1/0071 ,  G06T2201/0051 ,  G07C9/00087 ,  G07C2209/41 ,  G07D7/0034 ,  G07D7/004 ,  G07F7/086 ,  G07F7/1008 ,  G10L19/018 ,  G11B20/00891 ,  H04N1/00846 ,  H04N1/32144 ,  H04N1/32203 ,  H04N1/32208 ,  H04N1/32219 ,  H04N1/32261 ,  H04N1/32304 ,  H04N2201/3205 ,  H04N2201/3207 ,  H04N2201/3226 ,  H04N2201/3233 ,  H04N2201/3235 ,  H04N2201/3239 ,  H04N2201/327 ,  H04N2201/3271

Abstract: Security documents which has multiple fields or areas each of which contains information that is perceptible in more than one way: One field can contain a visually perceptible image and a digital watermark that can be detected when the image is scanned and processed, and another field can contain watermark data which can be correlated to the output of a fingerprint reader or of apparatus which scans a user's iris. The watermarks in the different graphic elements of the document are correlated to each other and correlated to the visual material on the document. Thus, the document can not be forged by replacing one element (such as a picture) with a similar element from another document. An automatic validation system of the present invention reads multiple fields on the document, and it also automatically detects information about the user. The various information is correlated to validate the document.

Abstract translation: 具有多个字段或区域的安全文件，每个字段或区域都包含以多种方式可感知的信息：一个字段可以包含视觉上可感知的图像和当扫描和处理图像时可以检测到的数字水印，另一个字段可以 包含可以与指纹读取器或扫描用户的虹膜的装置的输出相关联的水印数据。 文档的不同图形元素中的水印彼此相关并与文档上的视觉材料相关联。 因此，通过用另一个文档中的类似元素替换一个元素（如图片），无法伪造该文档。 本发明的自动验证系统读取文档上的多个字段，并且还自动检测关于用户的信息。 各种信息相关以验证文档。

公开(公告)号：US20240129120A1

公开(公告)日：2024-04-18

申请号：US18222391

申请日：2023-07-14

Applicant: Jonathan Carr

Inventor： Jonathan Carr

IPC: H04L9/08 ,  G06F21/60

CPC classification number: H04L9/088 ,  G06F21/602

Abstract: A deterministic encryption key generating method along with a cryptographic system is disclosed. The systems method uses the intersection of an equation representing a polynomial or quadratic (PQ-Equation) with a secure and secret 3-dimensional mathematical geometric shape, or manifold, to generate an ephemeral symmetric encryption key. Digital objects, files, and data can be cryptographically secured using this process with a unique per-file or per-data object key, which is destroyed after each use. The process combines coefficients of a PQ-Equation mapped onto the manifold to create or recreate the key from an identifier, for instance values for the PQ-Equation. PQ-Equation coefficients are stored with the protected file, accessible via the client and transmitted to the computational server possessing the secret manifold. The client device possesses no knowledge of the manifold and the computational server receives no knowledge of the digital object contents and no unitary key is stored, ensuring the confidentiality and integrity of the information being protected and allowing the digital object to be securely stored or transmitted over a network or the Internet with per protected data object defined access policies to the decryption key.