Patent search ap:"Roderick A Hyde" Page 31

301.

发明申请
System and method of operating an electrical energy storage device or an electrochemical energy generation device using microchannels and high thermal conductivity materials 审中-公开
Title translation: 使用微通道和高导热性材料操作电能存储装置或电化学能量产生装置的系统和方法

公开(公告)号：US20100304257A1

公开(公告)日：2010-12-02

申请号：US12455025

申请日：2009-05-26

Applicant: Alistair K. Chan , Roderick A. Hyde , Jordin T. Kare , Lowell L. Wood, JR.

Inventor： Alistair K. Chan , Roderick A. Hyde , Jordin T. Kare , Lowell L. Wood, JR.

IPC: H01M8/04 , H01M10/50 , H01M2/00

CPC classification number: H01M10/633 , F28D15/00 , F28D2015/0225 , F28D2021/0029 , F28F3/048 , F28F3/12 , F28F21/02 , F28F2013/006 , F28F2260/02 , H01G2/08 , H01G9/0003 , H01G9/08 , H01G9/155 , H01G11/18 , H01M2/02 , H01M4/02 , H01M4/86 , H01M8/0258 , H01M8/0267 , H01M8/04007 , H01M8/04029 , H01M8/04074 , H01M8/0432 , H01M8/04365 , H01M8/04559 , H01M8/04589 , H01M8/04701 , H01M8/04731 , H01M8/2475 , H01M10/425 , H01M10/613 , H01M10/615 , H01M10/623 , H01M10/625 , H01M10/63 , H01M10/647 , H01M10/654 , H01M10/6551 , H01M10/656 , H01M10/6562 , H01M10/6567 , H01M16/003 , H01M16/006 , H02J7/0029 , H05K7/20254 , Y02E60/13 , Y02T10/7022

Abstract: A method is generally described which includes operating an electrical electrochemical energy generation device or an electrochemical energy generation device. The method includes providing a housing having an external surface and an internal surface. The method also includes coupling at least one component within the housing. At least one component is configured to generate electrical energy in combination with other components, chemicals, or materials residing within the housing. The method includes forming a plurality of microchannels coupled to at least one of the internal surface of the housing or the at least one internal components. At least one microchannel is at least partially formed of a high thermal conductivity material. The high thermal conductivity material has a high k-value, the high k-value is greater than approximately 410 W/(m*K). The method further includes providing a thermal sink coupled to the microchannels. The thermal sink is configured to transfer heat energy to or from the microchannels. Further, the method includes flowing a fluid through the microchannels.

Abstract translation: 通常描述一种方法，其包括操作电化学能量产生装置或电化学能量产生装置。该方法包括提供具有外表面和内表面的壳体。该方法还包括联接壳体内的至少一个部件。至少一个组件被配置成与驻留在壳体内的其它部件，化学物质或材料组合产生电能。该方法包括形成耦合到壳体的内表面或至少一个内部部件中的至少一个的多个微通道。至少一个微通道至少部分由高导热性材料形成。高导热材料具有高k值，高k值大于约410W /（m * K）。该方法还包括提供耦合到微通道的散热器。散热器被配置为将热能传递到微通道或从微通道传递热能。此外，该方法包括使流体流过微通道。

302.

发明申请
System for altering temperature of an electrical energy storage device or an electrochemical energy generation device using microchannels based on states of the device 有权
Title translation: 用于基于设备的状态改变电能存储装置或使用微通道的电化学能量产生装置的温度的系统

公开(公告)号：US20100304252A1

公开(公告)日：2010-12-02

申请号：US12455015

申请日：2009-05-26

Applicant: Alistair K. Chan , Roderick A. Hyde , Jordin T. Kare , Lowell L. Wood, JR.

Inventor： Alistair K. Chan , Roderick A. Hyde , Jordin T. Kare , Lowell L. Wood, JR.

IPC: H01M8/04 , H01M10/50 , H01M10/42 , G06F19/00

CPC classification number: H01M10/633 , F28D15/00 , F28D2015/0225 , F28D2021/0029 , F28F3/048 , F28F3/12 , F28F21/02 , F28F2013/006 , F28F2260/02 , H01G2/08 , H01G9/0003 , H01G9/08 , H01G9/155 , H01G11/18 , H01M2/02 , H01M4/02 , H01M4/86 , H01M8/0258 , H01M8/0267 , H01M8/04007 , H01M8/04029 , H01M8/04074 , H01M8/0432 , H01M8/04365 , H01M8/04559 , H01M8/04589 , H01M8/04701 , H01M8/04731 , H01M8/2475 , H01M10/425 , H01M10/613 , H01M10/615 , H01M10/623 , H01M10/625 , H01M10/63 , H01M10/635 , H01M10/647 , H01M10/654 , H01M10/6551 , H01M10/656 , H01M10/6562 , H01M10/6567 , H01M16/003 , H01M16/006 , H02J7/0029 , H05K7/20254 , Y02E60/13 , Y02E60/50 , Y02T10/7022

Abstract: A method is generally described which includes altering the temperature of an electrical energy storage device or an electrochemical energy generation device includes configuring a controller with a control algorithm to control the actions of a fluid control system as a function of current draw from the electrical energy storage device or the electrochemical energy generation device, the electrical energy storage device or the electrochemical energy generation device configured to provide electrical current. The method also includes providing A microchannel thermal control system for the electrical energy storage device or the electrochemical energy generation device. The microchannel thermal control system is configured to cool at least portions of the electrical energy storage device or the electrochemical energy generation device. The microchannel thermal control system is configured to flow a fluid through the microchannels and the fluid to receive heat generated by the electrical energy storage device or the electrochemical energy generation device. Further, the method includes providing an electrical characteristic sensor coupled to the electrical energy storage device or the electrochemical energy generation device and configured to sense at least one electrical characteristic of the electrical energy storage device or the electrochemical energy generation device and to provide a signal representative of the at least one characteristic to the controller.

Abstract translation: 通常描述一种方法，其包括改变电能存储装置的温度或电化学能量生成装置包括配置具有控制算法的控制器，以控制流体控制系统的动作，作为从电能存储器设备或电化学能量产生装置，电能存储装置或电化学能发生装置，其被配置为提供电流。该方法还包括为电能存储装置或电化学能量发生装置提供A微通道热控制系统。微通道热控制系统被配置为冷却电能存储装置或电化学能生成装置的至少一部分。微通道热控制系统被配置为使流体流过微通道和流体以接收由电能存储装置或电化学能量产生装置产生的热量。此外，该方法包括提供耦合到电能存储装置或电化学能量产生装置的电特性传感器，并且被配置为感测电能存储装置或电化学能量产生装置的至少一个电特性并提供信号代表的至少一个特性。

303.

发明申请
Surgical stapling instrument with chemical sealant 失效
Title translation: 手术吻合器具化学密封剂

公开(公告)号：US20100301094A1

公开(公告)日：2010-12-02

申请号：US12804740

申请日：2010-07-27

Applicant: Edward S. Boyden , Roderick A. Hyde , Muriel Y. Ishikawa , Eric C. Leuthardt , Nathan P. Myhrvold , Dennis J. Rivet , Michael A. Smith , Clarence T. Tegreene , Thomas A. Weaver , Charles Whitmer , Lowell L. Wood, JR. , Victoria Y.H. Wood

Inventor： Edward S. Boyden , Roderick A. Hyde , Muriel Y. Ishikawa , Eric C. Leuthardt , Nathan P. Myhrvold , Dennis J. Rivet , Michael A. Smith , Clarence T. Tegreene , Thomas A. Weaver , Charles Whitmer , Lowell L. Wood, JR. , Victoria Y.H. Wood

IPC: A61B17/068 , A61B17/08

CPC classification number: A61B17/068 , A61B17/00491 , A61B17/072 , A61B2017/00022 , A61B2017/00221 , A61B2017/00398 , A61B2017/00402 , A61B2017/00871 , A61B2017/07214 , A61B2017/07278 , A61B2017/2905

Abstract: Embodiments include a surgical device and a method. An embodiment of the surgical instrument includes at least one grasping jaw, the at least one grasping jaw being adapted to deliver surgical staples by a force generated from a force generator mechanism that is contained within the at least one grasping jaw or is in a proximity to the at least one grasping jaw. Another embodiment includes at least one grasping jaw, at least one actuation mechanism adapted to deliver surgical staples, the actuation mechanism being located in a proximity to or contained within the at least one grasping jaw, the surgical staples containing at least one shape-transforming material, at least one sensor, at least one chemical tissue sealant and at least one cutter. A method includes: grasping a body tissue with at least one grasping jaw, adjusting a configuration of the grasping in response to a signal or a datum or an image, and releasing a surgical staple/fastener in response to the signal, datum or image.

Abstract translation: 实施例包括手术装置和方法。手术器械的一个实施例包括至少一个抓持爪，所述至少一个抓持爪适于通过由容纳在所述至少一个抓持爪内的力产生器机构产生的力来输送外科缝合钉，或者靠近所述至少一个抓握爪。另一个实施例包括至少一个抓持爪，至少一个致动机构，其适于输送手术吻合钉，所述致动机构位于所述至少一个抓持爪内或包含在所述至少一个抓持爪内，所述外科缝钉包含至少一种形状转换材料，至少一个传感器，至少一个化学组织密封剂和至少一个切割器。一种方法包括：用至少一个抓握爪抓住身体组织，响应于信号或基准面或图像调节抓握的构型，以及响应于信号，基准或图像释放外科钉/紧固件。

304.

发明申请
Device for passively removing a target component from blood or lymph of a vertebrate subject 有权
Title translation: 用于从脊椎动物受试者的血液或淋巴中被动成分去除目标成分的装置

公开(公告)号：US20100298766A1

公开(公告)日：2010-11-25

申请号：US12803215

申请日：2010-06-21

Applicant: Roderick A. Hyde , Muriel Y. Ishikawa , Edward K.Y. Jung , Robert Langer , Eric C. Leuthardt , Nathan P. Myhrvold , Elizabeth A. Sweeney , Lowell L. Wood, JR.

Inventor： Roderick A. Hyde , Muriel Y. Ishikawa , Edward K.Y. Jung , Robert Langer , Eric C. Leuthardt , Nathan P. Myhrvold , Elizabeth A. Sweeney , Lowell L. Wood, JR.

IPC: A61M5/00

CPC classification number: A61B5/14503 , A61B18/18 , A61F2/82 , A61M1/00 , A61M1/362 , A61M1/3679 , A61M1/3681 , A61M1/3683 , A61M5/00 , A61M5/007 , A61M5/14276 , A61M2202/0405 , A61M2205/04 , A61N5/02 , A61N5/0601 , A61N5/062 , A61N7/00

Abstract: Devices, systems, and methods are described herein for controlling or modulating the levels of one or more target components in the blood and/or lymph of a vertebrate subject. Devices and systems are provided that include a body defining at least one lumen configured for fluid flow; at least one controllable flow barrier to fluid flow into the at least one lumen; at least one first reservoir disposed within the body and configured to include one or more bifunctional tags, wherein the one or more bifunctional tags are configured to selectively bind to one or more target components in one or more of blood fluid or lymph fluid of a vertebrate subject; at least one treatment region disposed within the at least one lumen; and at least one second reservoir disposed in the at least one treatment region and configured to include one or more reactive components, wherein the one or more reactive components are configured to sequester the one or more bifunctional tags when bound to the one or more target components.

Abstract translation: 本文描述了用于控制或调节脊椎动物受试者的血液和/或淋巴中的一种或多种靶组分的水平的装置，系统和方法。提供了设备和系统，其包括限定被配置用于流体流动的至少一个内腔的主体; 流体流入所述至少一个内腔中的至少一个可控流动屏障; 设置在体内并被配置为包括一个或多个双功能标签的至少一个第一储存器，其中所述一个或多个双功能标签被配置为选择性地结合脊椎动物的一种或多种血液流体或淋巴液中的一种或多种靶组分学科; 设置在所述至少一个内腔内的至少一个治疗区域; 以及设置在所述至少一个处理区域中并且被配置为包括一个或多个反应性组分的至少一个第二储存器，其中所述一个或多个反应性组分被配置为当结合到所述一种或多种靶组分时螯合所述一种或多种双功能标签。

305.

发明申请
Maneuverable surgical stapler 失效

公开(公告)号：US20100294827A1

公开(公告)日：2010-11-25

申请号：US12804738

申请日：2010-07-27

Applicant: Edward S. Boyden , Roderick A. Hyde , Muriel Y. Ishikawa , Eric C. Leuthardt , Nathan P. Myhrvold , Dennis J. Rivet , Michael A. Smith , Clarence T. Tegreene , Thomas A. Weaver , Charles Whitmer , Lowell L. Wood, JR. , Victoria Y.H. Wood

Inventor： Edward S. Boyden , Roderick A. Hyde , Muriel Y. Ishikawa , Eric C. Leuthardt , Nathan P. Myhrvold , Dennis J. Rivet , Michael A. Smith , Clarence T. Tegreene , Thomas A. Weaver , Charles Whitmer , Lowell L. Wood, JR. , Victoria Y.H. Wood

IPC: A61B17/068

CPC classification number: A61B17/068 , A61B17/00491 , A61B17/072 , A61B2017/00022 , A61B2017/00221 , A61B2017/00398 , A61B2017/00402 , A61B2017/00871 , A61B2017/07214 , A61B2017/07278 , A61B2017/2905

Abstract: Embodiments include a surgical device and a method. An embodiment of the surgical instrument includes at least one grasping jaw, the at least one grasping jaw being adapted to deliver surgical staples by a force generated from a force generator mechanism that is contained within the at least one grasping jaw or is in a proximity to the at least one grasping jaw. Another embodiment includes at least one grasping jaw, at least one delivery mechanism adapted to deliver surgical fasteners, the delivery mechanism being located in a proximity to or contained within the at least one grasping jaw, the surgical fasteners containing at least one shape-transforming material, at least one sensor, at least one chemical tissue sealant and at least one cutter. A method includes: grasping a body tissue with at least one grasping jaw, adjusting a configuration of the grasping in response to a signal or a datum or an image, and releasing a surgical staple/fastener in response to the signal, datum or image.

306.

发明申请
Computational systems and methods for health services planning and matching 有权
Title translation: 健康服务计划和匹配的计算系统和方法

公开(公告)号：US20100293002A1

公开(公告)日：2010-11-18

申请号：US12657429

申请日：2010-01-20

Applicant: Shawn P. Firminger , Jason Garms , Roderick A. Hyde , Edward K.Y. Jung , Chris Demetrios Karkanias , Eric C. Leuthardt , Royce A. Levien , Richard T. Lord , Robert W. Lord , Mark A. Malamud , John D. Rinaldo, JR. , Clarence T. Tegreene , Kristin M. Tolle , Lowell L. Wood, JR.

Inventor： Shawn P. Firminger , Jason Garms , Roderick A. Hyde , Edward K.Y. Jung , Chris Demetrios Karkanias , Eric C. Leuthardt , Royce A. Levien , Richard T. Lord , Robert W. Lord , Mark A. Malamud , John D. Rinaldo, JR. , Clarence T. Tegreene , Kristin M. Tolle , Lowell L. Wood, JR.

IPC: G06Q50/00

CPC classification number: G06Q10/06 , G06F19/00 , G06F19/328 , G06F19/3418 , G06F19/3481 , G06Q30/06 , G06Q50/22 , G16H50/20 , G16H50/50 , G16H50/70

Abstract: Systems and methods are described relating to accepting an indication of at least one attribute of an individual; accepting sensor data about the individual; and presenting a set of health care options at least partially based on the accepting an indication of at least one attribute of the individual and the accepting sensor data about the individual.

Abstract translation: 描述了关于接受个人的至少一个属性的指示的系统和方法; 接受关于个人的传感器数据; 以及至少部分地基于接受个体的至少一个属性的指示和关于个体的接受传感器数据来呈现一组医疗保健选项。

$Negatively-refractive focusing and sensing apparatus, methods, and systems$

307.

发明授权
Negatively-refractive focusing and sensing apparatus, methods, and systems 有权

公开(公告)号：US07830618B1

公开(公告)日：2010-11-09

申请号：US12228140

申请日：2008-08-07

Applicant: Jeffrey A. Bowers , Roderick A. Hyde , Edward K. Y. Jung , John Brian Pendry , David Schurig , David R. Smith , Clarence T. Tegreene , Thomas A. Weaver , Charles Whitmer , Lowell L. Wood, Jr.

Inventor： Jeffrey A. Bowers , Roderick A. Hyde , Edward K. Y. Jung , John Brian Pendry , David Schurig , David R. Smith , Clarence T. Tegreene , Thomas A. Weaver , Charles Whitmer , Lowell L. Wood, Jr.

IPC: G02B13/00

CPC classification number: G02B27/40 , G02B1/007

Abstract: Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial.

308.

发明申请
Awarding standings to a vehicle based upon one or more fuel utilization characteristics 审中-公开
Title translation: 基于一种或多种燃料利用特性为车辆提供积分

公开(公告)号：US20100280707A1

公开(公告)日：2010-11-04

申请号：US12798910

申请日：2010-04-13

Applicant: Philip A. Eckhoff , William Gates , Peter L. Hagelstein , Roderick A. Hyde , Muriel Y. Ishikawa , Jordin T. Kare , Robert Langer , Eric C. Leuthardt , Erez Lieberman , Stephen L. Malaska , Nathan P. Myhrvold , Michael Schnall-Levin , Clarence T. Tegreene , Lowell L. Wood, JR.

Inventor： Philip A. Eckhoff , William Gates , Peter L. Hagelstein , Roderick A. Hyde , Muriel Y. Ishikawa , Jordin T. Kare , Robert Langer , Eric C. Leuthardt , Erez Lieberman , Stephen L. Malaska , Nathan P. Myhrvold , Michael Schnall-Levin , Clarence T. Tegreene , Lowell L. Wood, JR.

IPC: G06F7/00

CPC classification number: G07C5/085 , G07C5/008 , G08G1/0104

Abstract: A method may include, but is not limited to, receiving at least one of a status indicative of combustible fuel utilization or a status indicative of electricity utilization for a hybrid vehicle and forwarding to an off-site entity the at least one of the status indicative of combustible fuel utilization or the status indicative of electricity utilization for the vehicle.

Abstract translation: 方法可以包括但不限于接收指示可燃燃料利用的状态或表示混合动力车辆的电力利用的状态中的至少一个，并且向异地实体转发至少一个状态指示可燃燃料利用率或指示车辆电力利用的状态。