公开(公告)号：US09056703B2

公开(公告)日：2015-06-16

申请号：US13703474

申请日：2011-06-17

Applicant: R. Stephen Brown ,  Eric Marcotte ,  Doug Wilton ,  Peter Gallant ,  David Robinson ,  Les Stokes ,  Peter Holdcroft ,  Matthew Miles ,  Simon Wilkinson ,  Lee Underwood

Inventor： R. Stephen Brown ,  Eric Marcotte ,  Doug Wilton ,  Peter Gallant ,  David Robinson ,  Les Stokes ,  Peter Holdcroft ,  Matthew Miles ,  Simon Wilkinson ,  Lee Underwood

IPC: B65D55/02 ,  B01L3/00 ,  B65B5/08 ,  B65B7/28 ,  B65D3/14 ,  B65D43/22

CPC classification number: B65D55/02 ,  B01L3/508 ,  B01L2200/141 ,  B01L2300/043 ,  B01L2300/0654 ,  B65B5/08 ,  B65B7/28 ,  B65D3/14 ,  B65D43/22 ,  B65D55/024

Abstract: A container, comprising: a body; and, a closure; wherein the closure has a lid hinged to a ring mounted on the body, the lid moveable from an open position to a closed position; wherein the lid has a tab hinged thereto for: inserting into and engaging a slot formed in the ring as the lid is moved to the closed position from the open position to thereby lock the lid in the closed position; or, receiving and engaging a pin head of a pin mounted on the ring in a hole formed in the tab to thereby hold the lid in the closed position, the pin configured to detach from the ring when the tab and lid are returned to the opened position.

Abstract translation: 一种容器，包括：身体; 和关闭; 其中所述封闭件具有铰接到安装在所述主体上的环的盖，所述盖可以从打开位置移动到关闭位置; 其中所述盖具有铰接到其上的突片，用于当所述盖从所述打开位置移动到所述关闭位置时插入并接合形成在所述环中的槽，从而将所述盖锁定在所述关闭位置。 或者，将安装在所述环上的销的销头接收并接合在形成在所述突片中的孔中，从而将所述盖保持在所述关闭位置，所述销被构造成当所述突片和盖子返回到打开状态时与所述环分离 位置。

公开(公告)号：US08989903B2

公开(公告)日：2015-03-24

申请号：US13350502

申请日：2012-01-13

Applicant: David Weir ,  Grant Duque ,  Kevin Durant ,  Patrick Flanagan ,  Maggie Nixon ,  David Robinson ,  John Zabinski

Inventor： David Weir ,  Grant Duque ,  Kevin Durant ,  Patrick Flanagan ,  Maggie Nixon ,  David Robinson ,  John Zabinski

IPC: G06F19/00 ,  A61B17/072 ,  A61B17/00 ,  A61B19/00

CPC classification number: A61B34/25 ,  A61B17/00 ,  A61B17/07207 ,  A61B17/28 ,  A61B17/29 ,  A61B34/30 ,  A61B34/37 ,  A61B90/06 ,  A61B90/08 ,  A61B2017/00115 ,  A61B2017/00132 ,  A61B2017/2808 ,  A61B2034/254 ,  A61B2034/301 ,  A61B2090/064 ,  A61B2090/0811 ,  B25J9/1694 ,  G06F3/016 ,  G06F3/14 ,  G06F3/16

Abstract: End effectors with closing mechanisms, and related tools and methods to facilitate clamping, are provided. An example surgical tool comprises a first and second jaw movable between a closed grasped or clamped configuration and an open configuration. The tool further comprises a soft grip mode for grasping the tissue at a first force during which a separation parameter between the jaws is measured, and a therapeutic clamping mode in which the jaws clamp on the body tissue at a force greater than the grasping force. The methods comprise grasping the body tissue between jaw members, measuring the separation parameter between jaws, indicating on a user interface the separation parameter for comparison to a desired separation parameter, and then releasing the body tissue for repositioning or therapeutically clamping the body tissue in response to the separation parameter indication.

Abstract translation: 提供了具有关闭机构的末端执行器以及用于促进夹紧的相关工具和方法。 一种示例性外科手术工具包括可在关闭的被抓握或夹紧构型和打开构型之间移动的第一和第二钳口。 该工具进一步包括用于在第一力处抓住组织的软抓握模式，在该第一力期间测量夹爪之间的分离参数，以及治疗夹紧模式，其中夹爪以大于抓握力的力夹紧在身体组织上。 所述方法包括抓住钳口构件之间的身体组织，测量钳口之间的分离参数，在用户界面上指示分离参数以与期望的分离参数进行比较，然后释放身体组织以重新定位或治疗性地夹紧身体组织以作出响应 到分离参数指示。

公开(公告)号：US08923984B2

公开(公告)日：2014-12-30

申请号：US12549899

申请日：2009-08-28

Applicant: John L. Parker ,  David Robinson

Inventor： John L. Parker ,  David Robinson

IPC: A61N1/05 ,  A61M25/00 ,  A61N1/375

CPC classification number: A61N1/05 ,  A61M25/0009 ,  A61N1/0472 ,  A61N1/0484 ,  A61N1/0529 ,  A61N1/375

Abstract: An active implantable medical device (AIMD). The AIMD comprises an electronics module; and a knitted electrode assembly comprising: at least one biocompatible, electrically non-conductive filament arranged in substantially parallel rows each stitched to an adjacent row, and at least one biocompatible, electrically conductive filament intertwined with the at least one non-conductive filament, and configured to be electrically connected to the electronics module.

Abstract translation: 主动植入式医疗器械（AIMD）。 AIMD包括电子模块; 以及针织电极组件，其包括：至少一个生物相容的，不导电的细丝，其布置成大致平行的行，每个线缝合到相邻的行，以及与所述至少一个非导电细丝缠结的至少一个生物相容的导电细丝，以及 被配置为电连接到电子模块。

公开(公告)号：US08375221B1

公开(公告)日：2013-02-12

申请号：US13193945

申请日：2011-07-29

Applicant: Stefan Thom ,  Jeremiah Cox ,  David Linsley ,  Magnus Nystrom ,  Himanshu Raj ,  David Robinson ,  Stefan Saroiu ,  Rob Spiger ,  Alastair Wolman

Inventor： Stefan Thom ,  Jeremiah Cox ,  David Linsley ,  Magnus Nystrom ,  Himanshu Raj ,  David Robinson ,  Stefan Saroiu ,  Rob Spiger ,  Alastair Wolman

IPC: G06F11/30 ,  G06F7/04

CPC classification number: G06F21/552 ,  G06F21/46 ,  G06F21/57 ,  G06F21/572 ,  G06F21/575 ,  G06F21/71 ,  G06F21/74 ,  G06F2221/034

Abstract: A “Firmware-Based TPM” or “fTPM” ensures that secure code execution is isolated to prevent a wide variety of potential security breaches. Unlike a conventional hardware based Trusted Platform Module (TPM), isolation is achieved without the use of dedicated security processor hardware or silicon. In general, the fTPM is first instantiated in a pre-OS boot environment by reading the fTPM from system firmware or firmware accessible memory or storage and placed into read-only protected memory of the device. Once instantiated, the fTPM enables execution isolation for ensuring secure code execution. More specifically, the fTPM is placed into protected read-only memory to enable the device to use hardware such as the ARM® architecture's TrustZone™ extensions and security primitives (or similar processor architectures), and thus the devices based on such architectures, to provide secure execution isolation within a “firmware-based TPM” without requiring hardware modifications to existing devices.

Abstract translation: 基于固件的TPM或fTPM确保安全代码执行被隔离，以防止各种潜在的安全漏洞。 与传统的基于硬件的可信平台模块（TPM）不同，在不使用专用安全处理器硬件或硅片的情况下实现隔离。 通常，通过从系统固件或固件可访问的存储器或存储器读取fTPM并将其放置在设备的只读受保护的存储器中，fTPM首先在前OS引导环境中实例化。 一旦实例化，fTPM就能实现执行隔离，以确保执行安全的代码。 更具体地说，将fTPM放置到受保护的只读存储器中，以使设备能够使用诸如ARM®架构的TrustZone™扩展和安全原语（或类似的处理器架构）之类的硬件，从而使基于这种架构的设备提供 基于固件的TPM中的安全执行隔离，而不需要对现有设备进行硬件修改。

公开(公告)号：US20120283745A1

公开(公告)日：2012-11-08

申请号：US13356989

申请日：2012-01-24

Applicant: Randal P. Goldberg ,  Mike Hanuschik ,  Paul Millman ,  John W. Zabinski ,  David Robinson ,  Paul W. Mohr ,  Thomas R. Nixon ,  David W. Bailey

Inventor： Randal P. Goldberg ,  Mike Hanuschik ,  Paul Millman ,  John W. Zabinski ,  David Robinson ,  Paul W. Mohr ,  Thomas R. Nixon ,  David W. Bailey

IPC: A61B19/00

CPC classification number: A61B34/30 ,  A61B34/25 ,  A61B34/37 ,  A61B90/361 ,  A61B2017/00477 ,  A61B2017/00973 ,  Y10T74/20

Abstract: A control console to remotely control medical equipment is disclosed having a base with an ergonomically adjustable pedal system. The base further has an opening to receive the pedal system. The pedal system includes a moveable pedal tray with a pedal base. The tray includes a first left pedal assembly and a first right pedal assembly, and an upper tier having a second left pedal assembly and a second right pedal assembly respectively in alignment with and elevated above the first left pedal assembly and the first right pedal assembly. Rollers are rotatable coupled to the moveable pedal tray to allow it roll over a floor. A drive assembly is coupled between the moveable pedal tray and the base. The drive assembly applies a force to the to roll the moveable pedal tray over the floor within the opening of the base.

Abstract translation: 公开了一种用于遥控医疗设备的控制台，具有具有人体工程学可调节踏板系统的基座。 基座还具有接收踏板系统的开口。 踏板系统包括具有踏板底座的可动踏板盘。 托盘包括第一左踏板组件和第一右踏板组件，以及上层，其具有分别与第一左踏板组件和第一右踏板组件对准并升高的第二左踏板组件和第二右踏板组件。 辊可旋转地联接到可移动的踏板盘，以允许其在地板上滚动。 驱动组件联接在可动踏板盘和基座之间。 驱动组件向基座的开口内的地板上施加力以将可动踏板托盘滚动。

公开(公告)号：US20120221147A1

公开(公告)日：2012-08-30

申请号：US13356968

申请日：2012-01-24

Applicant: Randal P. Goldberg ,  Michael Hanuschik ,  Paul Millman ,  John W. Zabinski ,  David Robinson ,  David W. Weir

Inventor： Randal P. Goldberg ,  Michael Hanuschik ,  Paul Millman ,  John W. Zabinski ,  David Robinson ,  David W. Weir

IPC: B25J13/06

CPC classification number: A61B34/30 ,  A61B34/25 ,  A61B34/37 ,  A61B90/361 ,  A61B2017/00477 ,  A61B2017/00973 ,  Y10T74/20

Abstract: A control console to remotely control medical equipment is disclosed having a base with an ergonomically adjustable pedal system. The base further has an opening to receive the pedal system. The pedal system includes a moveable pedal tray with a pedal base. The tray includes a first left pedal assembly and a first right pedal assembly, and an upper tier having a second left pedal assembly and a second right pedal assembly respectively in alignment with and elevated above the first left pedal assembly and the first right pedal assembly. Rollers are rotatable coupled to the moveable pedal tray to allow it roll over a floor. A drive assembly is coupled between the moveable pedal tray and the base. The drive assembly applies a force to the to roll the moveable pedal tray over the floor within the opening of the base.

Abstract translation: 公开了一种用于遥控医疗设备的控制台，具有具有人体工程学可调节踏板系统的基座。 基座还具有接收踏板系统的开口。 踏板系统包括具有踏板底座的可动踏板盘。 托盘包括第一左踏板组件和第一右踏板组件，以及上层，其具有分别与第一左踏板组件和第一右踏板组件对准并升高的第二左踏板组件和第二右踏板组件。 辊可旋转地联接到可移动的踏板盘，以允许其在地板上滚动。 驱动组件联接在可动踏板盘和基座之间。 驱动组件向基座的开口内的地板上施加力以将可动踏板托盘滚动。

公开(公告)号：US20120173885A1

公开(公告)日：2012-07-05

申请号：US12982235

申请日：2010-12-30

Applicant: Tolga Acar ,  Brian LaMacchia ,  Henry Jerez Morales ,  Lan Duy Nguyen ,  David Robinson ,  Talha Bin Tariq

Inventor： Tolga Acar ,  Brian LaMacchia ,  Henry Jerez Morales ,  Lan Duy Nguyen ,  David Robinson ,  Talha Bin Tariq

IPC: G06F12/14 ,  H04L9/00 ,  G06F21/00

CPC classification number: H04L9/0877 ,  G06F21/602

Abstract: Described herein are techniques for distributed key management (DKM) in cooperation with Trusted Platform Modules (TPMs). The use of TPMs strengthens the storage and processing security surrounding management of distributed keys. DKM-managed secret keys are not persistently stored in clear form. In effect, the TPMs of participating DKM nodes provide security for DKM keys, and a DKM key, once decrypted with a TPM, is available to be used from memory for ordinary cryptographic operations to encrypt and decrypt user data. TPM public keys can be used to determine the set of trusted nodes to which TPM-encrypted secret keys can be distributed.

Abstract translation: 这里描述的是与可信平台模块（TPM）合作的分布式密钥管理（DKM）技术。 TPM的使用加强了分布式密钥管理周围的存储和处理安全性。 DKM管理的秘密密钥不会以清晰的形式持久存储。 实际上，参与的DKM节点的TPM为DKM密钥提供安全性，一旦用TPM解密的DKM密钥可用于从存储器中用于普通加密操作以加密和解密用户数据。 可以使用TPM公钥来确定可以分发TPM加密的密钥的可信节点集合。

公开(公告)号：US20120161945A1

公开(公告)日：2012-06-28

申请号：US13383800

申请日：2010-07-19

Applicant: Peter Single ,  David Robinson ,  John Parker ,  Peter Ayre ,  Dean Karantonis

Inventor： Peter Single ,  David Robinson ,  John Parker ,  Peter Ayre ,  Dean Karantonis

IPC: G08C19/16

CPC classification number: A61N1/36189 ,  A61N1/05 ,  A61N1/36146

Abstract: The invention is a distributed implantable neuro-stimulation system, comprising an implant controller including control logic to transmit two time-varying power signals, varying between two levels and out of phase with the other, and a command signal modulated onto at least one of the power signals. One or more electrode cells, each having control logic to extract charge from the power signals and recover commands from the command signal. A two-wire bus interconnecting the implant controller and all the electrode cells, to carry one of the time varying signals in each of the two wires, and to carry the command signal.

Abstract translation: 本发明是一种分布式可植入神经刺激系统，包括植入物控制器，该植入物控制器包括控制逻辑，该控制逻辑用于传输在两个水平之间变化的两个时变功率信号和与另一个电平相异的两个时变功率信号，以及调制到至少一个 电源信号。 一个或多个电极单元，每个电极单元具有从功率信号提取电荷并从指令信号恢复命令的控制逻辑。 将注入控制器和所有电极单元相互连接的两线总线，以承载两条线中的每一条中的时变信号之一，并承载命令信号。

公开(公告)号：US08205241B2

公开(公告)日：2012-06-19

申请号：US12023022

申请日：2008-01-30

Applicant: Karthik Lakshminarayanan ,  Kalpesh Patel ,  David Robinson ,  Tarik Soulami

Inventor： Karthik Lakshminarayanan ,  Kalpesh Patel ,  David Robinson ,  Tarik Soulami

IPC: H04L29/06

CPC classification number: G06F9/455

Abstract: A method and a processing device are provided for detecting a hardware-based virtual machine environment. An execution time of a privileged instruction may be measured and an execution time of a nonprivileged instruction may be measured. The execution time of the privileged instruction may be compared with the execution time of the nonprivileged instruction. When the execution time of the privileged instruction exceeds the execution time of the nonprivileged instruction by at least a threshold or a threshold factor, then a hardware-based virtual machine environment is detected. In some embodiments, a well-known technique for detecting a software-based virtual machine environment may be used in conjunction with a technique for detecting a hardware-based virtual machine environment. A licensing policy of a software product may be accessed and the software product may be prevented from executing when a detected machine environment is in violation of the licensing policy.

Abstract translation: 提供了一种用于检测基于硬件的虚拟机环境的方法和处理装置。 可以测量特权指令的执行时间，并且可以测量非特权指令的执行时间。 特权指令的执行时间可以与非特权指令的执行时间进行比较。 当特权指令的执行时间超过非特权指令的执行时间至少为阈值或阈值因素时，则检测基于硬件的虚拟机环境。 在一些实施例中，用于检测基于软件的虚拟机环境的公知技术可以与用于检测基于硬件的虚拟机环境的技术结合使用。 可以访问软件产品的许可策略，并且当检测到的机器环境违反许可策略时，软件产品可能被阻止执行。

公开(公告)号：US08120301B2

公开(公告)日：2012-02-21

申请号：US12400726

申请日：2009-03-09

Applicant: Randal P. Goldberg ,  Michael Hanuschik ,  Henry Hazebrouck ,  Paul Millman ,  Deepak Kapoor ,  John Zabinski ,  David Robinson ,  David Weir ,  Salvatore J. Brogna

Inventor： Randal P. Goldberg ,  Michael Hanuschik ,  Henry Hazebrouck ,  Paul Millman ,  Deepak Kapoor ,  John Zabinski ,  David Robinson ,  David Weir ,  Salvatore J. Brogna

IPC: B64C13/20

CPC classification number: A61B34/30 ,  A61B34/25 ,  A61B34/37 ,  A61B90/361 ,  A61B2017/00477 ,  A61B2017/00973 ,  Y10T74/20

Abstract: A control console to remotely control medical equipment is disclosed having a base with an ergonomically adjustable pedal system. The base further has an opening to receive the pedal system. The pedal system includes a moveable pedal tray with a pedal base. The tray includes a first left pedal assembly and a first right pedal assembly, and an upper tier having a second left pedal assembly and a second right pedal assembly respectively in alignment with and elevated above the first left pedal assembly and the first right pedal assembly. Rollers are rotatable coupled to the moveable pedal tray to allow it roll over a floor. A drive assembly is coupled between the moveable pedal tray and the base. The drive assembly applies a force to the to roll the moveable pedal tray over the floor within the opening of the base.

Abstract translation: 公开了一种用于遥控医疗设备的控制台，具有具有人体工程学可调节踏板系统的基座。 基座还具有接收踏板系统的开口。 踏板系统包括具有踏板底座的可动踏板盘。 托盘包括第一左踏板组件和第一右踏板组件，以及上层，其具有分别与第一左踏板组件和第一右踏板组件对准并升高的第二左踏板组件和第二右踏板组件。 辊可旋转地联接到可移动的踏板盘，以允许其在地板上滚动。 驱动组件联接在可动踏板盘和基座之间。 驱动组件向基座的开口内的地板上施加力以将可动踏板托盘滚动。