公开(公告)号：US20080278685A1

公开(公告)日：2008-11-13

申请号：US11927984

申请日：2007-10-30

申请人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

发明人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

IPC分类号： A61B3/113 ,  A61B3/14

CPC分类号： A61B3/113

摘要： A goggle based light-weight VOG system includes at least one digital camera connected to and powered by a laptop computer through a firewire connection and allows for region of interest image processing. The VOG system is a modular design whereby the same goggle frame or base is used to build a variety of digital camera VOG systems. The VOG system may track and record head position and goggle slippage. An animated eye display may provide data in a more meaningful fashion. An EOG system may be incorporated directly into a goggle base. The digital camera may digitally center the pupil in both the X and Y directions. A calibration mechanism may be incorporated onto the goggle base. The VOG system may be a modular design whereby the same goggle frame or base is used to build a variety of digital camera VOG systems.

摘要翻译： 基于护目镜的轻量级VOG系统包括通过火线连接连接到膝上型计算机并由其供电的至少一个数字照相机，并且允许感兴趣的图像处理区域。 VOG系统是一种模块化设计，使用相同的护目镜框架或底座来构建各种数码相机VOG系统。 VOG系统可以跟踪和记录头部位置和护目镜滑移。 动画眼睛显示器可以以更有意义的方式提供数据。 EOG系统可以直接并入护目镜基座。 数码相机可以在X和Y方向上数字地居中瞳孔。 校准机构可以结合到护目镜基座上。 VOG系统可以是模块化设计，其中相同的护目镜框架或基座用于构建各种数字照相机VOG系统。

公开(公告)号：US20130033677A1

公开(公告)日：2013-02-07

申请号：US13367406

申请日：2012-02-07

申请人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

发明人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

IPC分类号： A61B3/11 ,  A61B3/14

CPC分类号： A61B3/113

摘要： A high speed pupil dilation tracking can be incorporated into a light-weight VOG system which includes at least one digital camera connected to and powered by a laptop computer through a firewire connection. An EOG system may be incorporated directly into a VOG system base. The digital camera may digitally center the pupil in both the X and Y directions. A calibration mechanism may be incorporated onto the VOG system base. The VOG system may track and record head position and VOG system base slippage. An animated eye display may provide data in a more meaningful fashion. The VOG system may be a modular design whereby the same goggle frame or base is used to build a variety of digital camera VOG systems.

摘要翻译： 高速瞳孔扩张跟踪可以并入轻量级的VOG系统中，其包括通过火线连接连接到膝上型计算机并由其供电的至少一个数字照相机。 EOG系统可以直接并入VOG系统基础。 数码相机可以在X和Y方向上数字地居中瞳孔。 校准机构可以并入到VOG系统基础上。 VOG系统可以跟踪和记录头部位置和VOG系统基础滑移。 动画眼睛显示器可以以更有意义的方式提供数据。 VOG系统可以是模块化设计，其中相同的护目镜框架或基座用于构建各种数字照相机VOG系统。

公开(公告)号：US20080273084A1

公开(公告)日：2008-11-06

申请号：US11926564

申请日：2007-10-29

申请人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

发明人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

IPC分类号： H04N7/18

CPC分类号： A61B3/113

摘要： A goggle based light-weight VOG/EOG system includes at least one digital camera connected to and powered by a laptop computer through a firewire connection. The EOG system is incorporated directly into a goggle base. The digital camera may digitally center the pupil in both the X and Y directions. A calibration mechanism may be incorporated onto the goggle base. The VOG system may track and record 3-D movement of the eye, track pupil dilation, head position and goggle slippage. An animated eye display provides data in a more meaningful fashion. The VOG system is a modular design whereby the same goggle frame or base is used to build a variety of digital camera VOG systems.

摘要翻译： 基于护目镜的轻量级VOG / EOG系统包括通过火线连接连接到膝上型计算机并由其供电的至少一个数字照相机。 EOG系统直接并入护目镜底座。 数码相机可以在X和Y方向上数字地居中瞳孔。 校准机构可以结合到护目镜基座上。 VOG系统可以跟踪和记录眼睛的三维运动，跟踪瞳孔扩张，头部位置和护目镜滑移。 动画眼睛显示器以更有意义的方式提供数据。 VOG系统是一种模块化设计，使用相同的护目镜框架或底座来构建各种数码相机VOG系统。

公开(公告)号：US07731360B2

公开(公告)日：2010-06-08

申请号：US10704529

申请日：2003-11-07

申请人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

发明人： Hamish G. MacDougall ,  Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos ,  Floris L. Wuyts ,  Steven T. Moore

IPC分类号： A61B3/14 ,  A61B3/10

CPC分类号： A61B3/113

摘要： A goggle based light-weight VOG system includes at least one digital camera connected to and powered by a laptop computer through a firewire connection. The digital camera may digitally center the pupil in both the X and Y directions. A calibration mechanism may be incorporated onto the goggle base. An EOG system may also be incorporated directly into the goggle. The VOG system may track and record 3-D movement of the eye, track pupil dilation, head position and goggle slippage. An animated eye display provides data in a more meaningful fashion. The VOG system is a modular design whereby the same goggle frame or base is used to build a variety of digital camera VOG systems.

摘要翻译： 基于护目镜的轻量级VOG系统包括通过火线连接连接到膝上型计算机并由其供电的至少一个数字照相机。 数码相机可以在X和Y方向上数字地居中瞳孔。 校准机构可以结合到护目镜基座上。 EOG系统也可以直接并入护目镜中。 VOG系统可以跟踪和记录眼睛的三维运动，跟踪瞳孔扩张，头部位置和护目镜滑移。 动画眼睛显示器以更有意义的方式提供数据。 VOG系统是一种模块化设计，使用相同的护目镜框架或底座来构建各种数码相机VOG系统。

公开(公告)号：US07119471B2

公开(公告)日：2006-10-10

申请号：US10888207

申请日：2004-07-09

申请人： Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos

发明人： Alexander D. Kiderman ,  John Howison Schroeder ,  Thomas C. Joos

IPC分类号： H02K19/02 ,  H02K13/00 ,  H02K21/00

CPC分类号： H02K9/19 ,  H02K5/04 ,  H02K7/003 ,  H02K7/14 ,  H02K11/21 ,  H02K21/14 ,  H02K29/06

摘要： A synchronous motor includes a housing 20, a stator assembly 30 mounted within the housing 20, a rotor assembly 40 rotationally mounted within the housing 20, a rotor shaft 50 having an upper mounting surface 52 attached to the rotor assembly 40, a bearing assembly 60 coupled to the housing 20 and positioned axially between the rotor assembly 40 and the upper mounting surface 52, a slip ring assembly 70 supported by the housing 20 and positioned axially at least partially within the stator assembly 30 and the rotor assembly 40, and an encoder assembly 80 adjacent the slip ring assembly 70.

摘要翻译： 同步电动机包括壳体20，安装在壳体20内的定子组件30，旋转地安装在壳体20内的转子组件40，具有附接到转子组件40的上安装表面52的转子轴50，轴承组件60 联接到壳体20并且轴向定位在转子组件40和上安装表面52之间;滑环组件70，其由壳体20支撑并且轴向至少部分地定位在定子组件30和转子组件40内;以及编码器 组件80邻近滑环组件70。

公开(公告)号：US09655515B2

公开(公告)日：2017-05-23

申请号：US12420111

申请日：2009-04-08

申请人： John Howison Schroeder ,  Alexander D. Kiderman

发明人： John Howison Schroeder ,  Alexander D. Kiderman

IPC分类号： G06K9/00 ,  A61B3/113

CPC分类号： A61B3/113 ,  G06K9/00604

摘要： In the field of eye tracking, greater accuracy or resolution in monitoring movement of the eye can be gained by digitizing the eye, and tracking the movement of a landmark with fixed size and a fixed location relative to the eye's local coordinate system. The edge of the iris can be used as such a fixed landmark. Through the location and or establishment of at least a portion of the outer edge of the iris and/or an iris center point, both large and small scale eye movements, including but not limited to micro-tremors, can be traced with a higher degree of accuracy. This will aid in the diagnosis of diseases, assessing state of consciousness, and defining brainstem death.

公开(公告)号：US20100092049A1

公开(公告)日：2010-04-15

申请号：US12420111

申请日：2009-04-08

申请人： John Howison Schroeder ,  Alexander D. Kiderman

发明人： John Howison Schroeder ,  Alexander D. Kiderman

IPC分类号： G06K9/00 ,  A61B3/113

CPC分类号： A61B3/113 ,  G06K9/00604

摘要： In the field of eye tracking, greater accuracy or resolution in monitoring movement of the eye can be gained by digitizing the eye, and tracking the movement of a landmark with fixed size and a fixed location relative to the eye's local coordinate system. The edge of the iris can be used as such a fixed landmark. Through the location and or establishment of at least a portion of the outer edge of the iris and/or an iris center point, both large and small scale eye movements, including but not limited to micro-tremors, can be traced with a higher degree of accuracy. This will aid in the diagnosis of diseases, assessing state of consciousness, and defining brainstem death.

摘要翻译： 在眼睛跟踪领域，可以通过数字化眼睛和跟踪具有固定尺寸和相对于眼睛的局部坐标系的固定位置的地标的移动来获得监视眼睛运动的更高精度或分辨率。 虹膜的边缘可以用作固定的地标。 通过虹膜的外边缘和/或虹膜中心点的至少一部分的位置和/或建立，可以以更高的程度来追踪包括但不限于微震的大小尺度眼睛运动 的准确性。 这将有助于诊断疾病，评估意识状态和确定脑干死亡。

公开(公告)号：US08333472B2

公开(公告)日：2012-12-18

申请号：US11181019

申请日：2005-07-13

申请人： Alexander D. Kiderman

发明人： Alexander D. Kiderman

IPC分类号： A61B3/00

CPC分类号： A61B5/4863 ,  A61B3/028 ,  A61B3/032 ,  A61B5/1116 ,  A61B5/4023

摘要： The above objects are achieved with a compact neuro-otologic testing device and method of utilizing the same according to the present invention. The device according to the present invention provides an image producing laser with a right hand, servo controlled galvanometric based XY interface. The high quality closed loop servo control system that can drive the target (i.e. the laser image) in excess of 1,000,000 degrees/second2 and at velocities in excess of 12000 degrees/second. The bandwidth of the XY interface is greater than 400 Hz, providing high image reproducibility. The repeatability and position accuracy of the target is +−3 arc-seconds and the field of range of the XY interface are about 60 degrees (i.e. about 60 degrees horizontal and 60 degrees vertical).

摘要翻译： 上述目的通过使用本发明的紧凑型神经耳蜗检测装置及其利用方法来实现。 根据本发明的装置提供具有右手，伺服控制的基于电流计的XY接口的图像产生激光器。 高质量的闭环伺服控制系统可以驱动目标（即激光图像）超过1,000,000度/秒2，速度超过12000度/秒。 XY接口的带宽大于400Hz，提供高的图像再现性。 目标的重复性和位置精度为+ -3弧秒，XY界面的范围为约60度（即水平方向为60度，垂直方向为60度）。

公开(公告)号：US20100032361A1

公开(公告)日：2010-02-11

申请号：US12581226

申请日：2009-10-19

申请人： Steven R. Evanovich ,  Alexander D. Kiderman ,  Michael J. Schmitt ,  Justin Dow

发明人： Steven R. Evanovich ,  Alexander D. Kiderman ,  Michael J. Schmitt ,  Justin Dow

IPC分类号： B01D35/30 ,  B23P11/00

CPC分类号： B01D35/303 ,  B01D2201/302 ,  Y10T29/49826

摘要： A hydraulic filter includes a canister extending along the longitudinal axis. A closed end cap is at one end of the canister for closing one end thereof. A removable filter element is contained within the canister and a modular one-piece input end cap is at an end of the canister. The one-piece input end cap includes a hydraulic input chamber and a hydraulic output chamber which can be positioned in any one of three mutually perpendicular directions. The one-piece input end cap also allows for sensors to be positioned in any one of three mutually perpendicular directions. In addition, the one-piece input end cap can be utilized in base-ported or top-ported configurations while also allowing for side-to-side or side-to-end configurations.

摘要翻译： 液压过滤器包括沿着纵向轴线延伸的罐。 封闭的端盖位于罐的一端，用于封闭其一端。 罐内装有一个可拆卸的过滤元件，模块化的一体式输入端盖位于罐的末端。 一体式输入端盖包括可以位于三个相互垂直方向中的任一个中的液压输入室和液压输出室。 单件输入端盖还允许传感器定位在三个相互垂直的方向中的任一个中。 此外，一体式输入端盖可以用于基底或顶部配置，同时还允许侧面对侧或侧向对端配置。

公开(公告)号：US20080151192A1

公开(公告)日：2008-06-26

申请号：US11930573

申请日：2007-10-31

申请人： Scott Wood ,  Alexander D. Kiderman

发明人： Scott Wood ,  Alexander D. Kiderman

IPC分类号： A61B3/024

CPC分类号： A61B5/4863 ,  A61B3/028 ,  A61B3/032 ,  A61B5/1116 ,  A61B5/4023

摘要： A compact neuro-otologic testing device and method provides an image producing laser with a right hand, servo controlled galvanometric based XY interface. The high quality closed loop servo control system that can drive the target (i.e. the laser image) in excess of 1,000,000 degrees/second2 and at velocities in excess of 12000 degrees/second. The bandwidth of the XY interface is greater than 400 Hz, providing high image reproducibility. The repeatability and position accuracy of the target is +−3 arc-seconds and the field of range of the XY interface are about 60 degrees (i.e. about 60 degrees horizontal and 60 degrees vertical).

摘要翻译： 紧凑的神经耳蜗检测装置和方法提供了一种使用右手，伺服控制的基于电流计的XY接口的图像产生激光。 高质量的闭环伺服控制系统可以驱动目标（即，激光图像）超过1,000,000度/秒2和超过12000度/秒的速度。 XY接口的带宽大于400Hz，提供高的图像再现性。 目标的重复性和位置精度为+ -3弧秒，XY界面的范围为约60度（即水平方向为60度，垂直方向为60度）。