公开(公告)号：US08026466B2

公开(公告)日：2011-09-27

申请号：US12286744

申请日：2008-09-30

Applicant: Roderick A. Hyde ,  Muriel Y. Ishikawa ,  Jordin T. Kare ,  Thomas J. Nugent, Jr. ,  Thomas A. Weaver ,  Lowell L. Wood, Jr. ,  Victoria Y. H. Wood

Inventor： Roderick A. Hyde ,  Muriel Y. Ishikawa ,  Jordin T. Kare ,  Thomas J. Nugent, Jr. ,  Thomas A. Weaver ,  Lowell L. Wood, Jr. ,  Victoria Y. H. Wood

IPC: H02J17/00

CPC classification number: H02J50/30 ,  G01S13/04 ,  H02J17/00 ,  H02J50/15 ,  H02J50/20 ,  H02J50/40 ,  H02J50/60 ,  H02J50/80 ,  H02J50/90

Abstract: A beam power source transmits a signal indicating power availability, receives a request for power in response, and beams power in response to the request.

Abstract translation: 波束电源发送指示功率可用性的信号，响应于接收对功率的请求，并且响应于该请求而发射功率。

公开(公告)号：US20110188777A1

公开(公告)日：2011-08-04

申请号：US12928252

申请日：2010-12-06

Applicant: Edward S. Boyden ,  Roderick A. Hyde ,  Muriel Y. Ishikawa ,  Edward K.Y. Jung ,  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 ,  Edward K.Y. Jung ,  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: G06K9/40

CPC classification number: G01R33/565

Abstract: Certain aspects can relate to obtaining at least some input compensating information at least partially based on the distortion characterizing imaging information that when applied to an imaging modality used to obtain the at least one image information can limit distortions to the at least the portion of the at least one image information resulting from at least a portion of at least one distorting feature, wherein the at least some input compensating information is characterized based at least in part on the at least one relative orientation of the at least the portion of the at least one distorting feature relative to the at least one image information.

公开(公告)号：US07950356B2

公开(公告)日：2011-05-31

申请号：US11973640

申请日：2007-10-09

Applicant: Roderick A. Hyde ,  William H. Gates, III ,  Muriel Y. Ishikawa ,  Jordin T. Kare ,  Nathan P. Myhrvold ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Lowell L. Wood, Jr. ,  Victoria Y. H. Wood

Inventor： Roderick A. Hyde ,  William H. Gates, III ,  Muriel Y. Ishikawa ,  Jordin T. Kare ,  Nathan P. Myhrvold ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Lowell L. Wood, Jr. ,  Victoria Y. H. Wood

IPC: F02B71/00

CPC classification number: F02B63/04 ,  F02B63/041 ,  F02B71/04 ,  F02B75/021 ,  F02B75/04 ,  F02B75/042 ,  F02B75/048 ,  F02B75/28 ,  H02K7/1884 ,  H02K35/02

Abstract: In an embodiment, an internal combustion engine includes a first cylinder having a first piston and a second piston slidably disposed therein, an intake port arranged to admit a reactant into the first cylinder between the first and second pistons, and an exhaust port axially spaced from the intake port and arranged to exhaust a reaction product from the first cylinder. First and second converters are provided, which are operable with the corresponding first and second pistons, to convert mechanical energy of the first and second pistons to electrical energy and electrical energy to mechanical energy. A control system is provided that is coupled to the first and second converters. The control system is configured to control the application of electrical energy to the first and second converters to selectively position the first and second pistons during specific strokes of the engine cycle.

Abstract translation: 在一个实施例中，内燃机包括具有第一活塞和可滑动地设置在其中的第二活塞的第一气缸，设置成允许反应物进入第一和第二活塞之间的第一气缸的进气口和与第一气缸轴向间隔开的排气口 所述进气口布置成从所述第一气缸排出反应产物。 提供第一和第二转换器，其可与相应的第一和第二活塞一起操作，以将第一和第二活塞的机械能转换为电能和电能至机械能。 提供了耦合到第一和第二转换器的控制系统。 控制系统被配置为控制对第一和第二转换器的电能的施加，以在发动机循环的特定冲程期间选择性地定位第一和第二活塞。

公开(公告)号：US20110027627A1

公开(公告)日：2011-02-03

申请号：US12589323

申请日：2009-10-20

Applicant: Geoffrey F. Deane ,  Bran Ferren ,  William Gates ,  W. Daniel Hillis ,  Roderick A. Hyde ,  Muriel Y. Ishikawa ,  Edward K.Y. Jung ,  Jordin T. Kare ,  Nathan P. Myhrvold ,  Clarence T. Tegreene ,  David B. Tuckerman ,  Thomas A. Weaver ,  Charles Whitmer ,  Lowell L. Wood, JR. ,  Victoria Y.H. Wood

Inventor： Geoffrey F. Deane ,  Bran Ferren ,  William Gates ,  W. Daniel Hillis ,  Roderick A. Hyde ,  Muriel Y. Ishikawa ,  Edward K.Y. Jung ,  Jordin T. Kare ,  Nathan P. Myhrvold ,  Clarence T. Tegreene ,  David B. Tuckerman ,  Thomas A. Weaver ,  Charles Whitmer ,  Lowell L. Wood, JR. ,  Victoria Y.H. Wood

IPC: H01M10/44 ,  H01M4/02 ,  H01M4/36 ,  H01M10/50 ,  H01M10/04 ,  H02J7/00

CPC classification number: H01M4/02 ,  H01M4/36 ,  H01M4/366 ,  H01M10/44 ,  H01M10/613 ,  H01M10/617 ,  H01M10/654 ,  H01M10/6567 ,  H01M2004/021 ,  Y10T29/49108

Abstract: An electrochemical device (such as a battery) includes at least one electrode having a fluid surface, which may employ a surface energy effect to maintain a position of the fluid surface and/or to modulate flow within the fluid. Fluid-directing structures may also modulate flow or retain fluid in a predetermined pattern. An electrolyte within the device may also include an ion-transport fluid, for example infiltrated into a porous solid support.

公开(公告)号：US07869131B2

公开(公告)日：2011-01-11

申请号：US12220703

申请日：2008-07-25

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: G02B3/00

CPC classification number: G02B5/00 ,  B82Y20/00 ,  G02B1/007

Abstract: Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field 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.

Abstract translation: 设备，方法和系统提供电磁能量的发射和负折射聚焦。 在一些方法中，负折射聚焦包括具有基本上小于1的轴向倍率的内部场区域的负折射聚焦。 在一些方法中，负折射聚焦包括与转化介质的负折射聚焦，其中转化介质可以包括人造结构的材料，例如超材料。

公开(公告)号：US20100289263A1

公开(公告)日：2010-11-18

申请号：US12804426

申请日：2010-07-20

Applicant: Roderick A. Hyde ,  William H. Gates, III ,  Muriel Y. Ishikawa ,  Jordin T. Kare ,  Nathan P. Myhrvold ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Lowell L. Wood, JR. ,  Victoria Y.H. Wood

Inventor： Roderick A. Hyde ,  William H. Gates, III ,  Muriel Y. Ishikawa ,  Jordin T. Kare ,  Nathan P. Myhrvold ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Lowell L. Wood, JR. ,  Victoria Y.H. Wood

IPC: H02P9/04 ,  F02B63/00

CPC classification number: H02K7/1884 ,  B60L7/14 ,  B60L11/005 ,  B60L11/14 ,  B60L15/2009 ,  B60L2210/40 ,  B60L2220/12 ,  B60L2220/14 ,  B60L2240/12 ,  B60L2240/14 ,  B60L2240/36 ,  B60L2240/421 ,  B60L2240/429 ,  B60L2240/441 ,  B60L2240/642 ,  B60L2240/662 ,  B60L2270/12 ,  F02B63/04 ,  F02B63/041 ,  Y02T10/641 ,  Y02T10/645 ,  Y02T10/70 ,  Y02T10/7022 ,  Y02T10/7077 ,  Y02T10/7241 ,  Y02T10/7275 ,  Y02T10/7291 ,  Y02T90/16

Abstract: A converter converts mechanical energy of a piston to and from electrical energy during each piston cycle.

Abstract translation: A转换器在每个活塞循环期间将活塞的机械能转换为电能和来自电能。

公开(公告)号：US20100277807A1

公开(公告)日：2010-11-04

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: G02B3/00

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.

Abstract translation: 装置，方法和系统提供负折射聚焦和电磁能的感测。 在一些方法中，负折射聚焦包括提供具有基本上小于1的轴向倍率的内部聚焦区域。 在一些方法中，负折射聚焦包括与转化介质的负折射聚焦，其中转化介质可以包括人造结构的材料，例如超材料。

公开(公告)号：US20100266088A1

公开(公告)日：2010-10-21

申请号：US12460160

申请日：2009-07-13

Applicant: Charles E. Ahlfeld ,  Roderick A. Hyde ,  Muriel Y. Ishikawa ,  David G. McAlees ,  Jon D. McWhirter ,  Nathan P. Myhrvold ,  Ashok Odedra ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Victoria Y.H. Wood ,  Lowell L. Wood, JR. ,  George B. Zimmerman

Inventor： Charles E. Ahlfeld ,  Roderick A. Hyde ,  Muriel Y. Ishikawa ,  David G. McAlees ,  Jon D. McWhirter ,  Nathan P. Myhrvold ,  Ashok Odedra ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Victoria Y.H. Wood ,  Lowell L. Wood, JR. ,  George B. Zimmerman

IPC: G21C7/32 ,  G21C7/00

CPC classification number: G21C7/32 ,  G21C1/026 ,  G21C3/02 ,  G21C3/322 ,  G21C3/326 ,  G21C17/10 ,  Y02E30/34 ,  Y02E30/38 ,  Y02E30/39

Abstract: A nuclear fission reactor, flow control assembly, methods therefor and a flow control assembly system. The flow control assembly is coupled to a nuclear fission module capable of producing a traveling burn wave at a location relative to the nuclear fission module. The flow control assembly controls flow of a fluid in response to the location relative to the nuclear fission module. The flow control assembly comprises a flow regulator subassembly configured to be operated according to an operating parameter associated with the nuclear fission module. In addition, the flow regulator subassembly is reconfigurable according to a predetermined input to the flow regulator subassembly. Moreover, the flow control assembly comprises a carriage subassembly coupled to the flow regulator subassembly for adjusting the flow regulator subassembly to vary fluid flow into the nuclear fission module.

Abstract translation: 核裂变反应堆，流量控制组件，其方法和流量控制组装系统。 流量控制组件耦合到能够在相对于核裂变模块的位置处产生行驶燃烧波的核裂变模块。 流量控制组件响应于相对于核裂变模块的位置来控制流体的流动。 流量控制组件包括流量调节器子组件，其被配置为根据与核裂变模块相关联的操作参数来操作。 此外，流量调节器子组件可根据流量调节器子组件的预定输入重新配置。 此外，流量控制组件包括联接到流量调节器子组件的滑架子组件，用于调节流量调节器子组件以改变流入核裂变模块的流体流量。

公开(公告)号：US20100266086A1

公开(公告)日：2010-10-21

申请号：US12460157

申请日：2009-07-13

Applicant: Charles E. Ahlfeld ,  Roderick A. Hyde ,  Muriel Y. Ishikawa ,  David G. McAlees ,  Jon D. McWhirter ,  Nathan P. Myhrvold ,  Ashok Odedra ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Victoria Y. H. Wood ,  Lowell L. Wood, JR. ,  George B. Zimmerman

Inventor： Charles E. Ahlfeld ,  Roderick A. Hyde ,  Muriel Y. Ishikawa ,  David G. McAlees ,  Jon D. McWhirter ,  Nathan P. Myhrvold ,  Ashok Odedra ,  Clarence T. Tegreene ,  Thomas A. Weaver ,  Charles Whitmer ,  Victoria Y. H. Wood ,  Lowell L. Wood, JR. ,  George B. Zimmerman

IPC: G21C7/32 ,  G21C7/00 ,  G21C17/00

CPC classification number: G21C7/32 ,  G21C1/026 ,  G21C3/02 ,  G21C3/322 ,  G21C3/326 ,  G21C17/10 ,  Y02E30/34 ,  Y02E30/38 ,  Y02E30/39

Abstract: A nuclear fission reactor, flow control assembly, methods therefor and a flow control assembly system. The flow control assembly is coupled to a nuclear fission module capable of producing a traveling burn wave at a location relative to the nuclear fission module. The flow control assembly controls flow of a fluid in response to the location relative to the nuclear fission module. The flow control assembly comprises a flow regulator subassembly configured to be operated according to an operating parameter associated with the nuclear fission module. In addition, the flow regulator subassembly is reconfigurable according to a predetermined input to the flow regulator subassembly. Moreover, the flow control assembly comprises a carriage subassembly coupled to the flow regulator subassembly for adjusting the flow regulator subassembly to vary fluid flow into the nuclear fission module.

公开(公告)号：US07810691B2

公开(公告)日：2010-10-12

申请号：US11895644

申请日：2007-08-23

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 actuation mechanism adapted to deliver surgical fasteners, the actuation 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 organ/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.