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    • 91. 发明申请
    • METHODS FOR CONSTRUCTING POSTURE CALIBRATION MATRICES
    • 建立姿势校准矩阵的方法
    • US20110201969A1
    • 2011-08-18
    • US13024823
    • 2011-02-10
    • John D. HatlestadTsz Ping Chan
    • John D. HatlestadTsz Ping Chan
    • A61B5/103
    • A61N1/36542A61B5/1116A61B5/1117A61B5/1118A61B5/686A61B2560/0223A61B2562/0219A61N1/3925G01P15/18
    • A device can include a multi-dimensional posture sensor that provides an electrical sensor output representative of alignment of first, second, and third non-parallel axes of the device with the gravitational field of the earth, and a processor that includes a calibration circuit and a posture circuit. The calibration circuit measures a first sensor output for the first device axis and a second sensor output for one of a second device axis while the subject is in a first specified posture, measures sensor outputs for the first, second, and third device axes while the subject is in a second specified posture, calculates one or more coordinate transformations, generates transformed sensor outputs using the coordinate transformations, and calibrates the posture sensor by calculating a calibration transformation using the first and second sensor outputs and the transformed sensor outputs. The posture circuit determines a subsequent posture of the subject using the posture sensor.
    • 设备可以包括多维姿态传感器,其提供表示设备的第一,第二和第三非平行轴线与地球的重力场的对准的电传感器输出,以及包括校准电路和 姿势电路。 校准电路测量第一设备轴的第一传感器输出和第二设备轴的第二传感器输出,同时对象处于第一指定姿势,测量第一,第二和第三设备轴的传感器输出,同时 受试者处于第二指定姿势,计算一个或多个坐标变换,使用坐标变换生成变换的传感器输出,并且通过使用第一和第二传感器输出和变换的传感器输出计算校准变换来校准姿势传感器。 姿势电路使用姿态传感器来确定对象的后续姿势。
    • 96. 发明授权
    • System and method for transmitting energy to and establishing a communications network with one or more implanted devices
    • 用于向一个或多个植入装置发送能量并建立通信网络的系统和方法
    • US07471986B2
    • 2008-12-30
    • US10783285
    • 2004-02-20
    • John D. Hatlestad
    • John D. Hatlestad
    • A61N1/00A61N1/08
    • A61N1/3787
    • Systems and methods for automatically powering and communicating with an implantable medical device through an inductive link are disclosed. A preferred embodiment comprises an inductive coil or set of such coils. One coil may be mounted or installed on or near the bed of a patient as a component of a transmission module. Another coil may a component of an implantable medical device. The coils are energized by a resonant circuit to generate an electromagnetic field in the vicinity of the bedside. Without any action on the patient's part, the implantable device receives the inductively transmitted energy to power its immediate operation or recharge its battery, thereby extending its longevity, potentially indefinitely. The inductive link also enables data transfer communication between the transmission module and implantable device. Some embodiments of a system disclosed herein also can be configured as a component of an Advanced Patient Management System that helps better monitor, predict and manage chronic diseases.
    • 公开了通过电感链路自动供电和与可植入医疗装置通信的系统和方法。 优选实施例包括一个感应线圈或一组这样的线圈。 一个线圈可以作为传输模块的组件安装或安装在患者床上或其附近。 另一个线圈可以是可植入医疗装置的部件。 线圈由谐振电路通电,以在床边附近产生电磁场。 无需对患者进行任何动作,可植入装置接收感应发射的能量来为其即时操作提供动力或对其电池进行再充电,从而可能无限期地延长其寿命。 感应链路还使得传输模块和可植入设备之间的数据传输通信。 本文公开的系统的一些实施例还可以被配置为高级患者管理系统的组件,其有助于更好地监测,预测和管理慢性疾病。
    • 97. 发明申请
    • Daytime/nighttime respiration rate monitoring
    • 白天/夜间呼吸率监测
    • US20080312541A1
    • 2008-12-18
    • US11820002
    • 2007-06-15
    • Aaron LewickeYi ZhangJohn D. Hatlestad
    • Aaron LewickeYi ZhangJohn D. Hatlestad
    • A61B5/0205
    • A61B5/0816A61B5/0205A61B5/1116A61B5/7264G06F19/00
    • A device and method can monitor or trend a patient's respiration rate measurements according to the time of day. The device, which may be implantable or external, collects and classifies respiration rate measurements over time. The trended information about particular classes of respiration rate measurements is then communicated to a remote external device, which in turn provides an indication of heart failure decompensation. Examples of classes of respiration rate measurements include a daily maximum respiration rate value, a daily minimum respiration rate value, a daily maximum respiration rate variability value, a daily minimum respiration rate variability value, and a daily central respiration rate value. These respiration rate measurements can be further classified into daytime or nighttime respiration rate measurements.
    • 一种装置和方法可以根据一天中的时间来监视或趋向于患者的呼吸速率测量。 该装置可以植入或外部收集和分类呼吸速率测量随时间的变化。 关于呼吸率测量的特定类别的趋势化信息然后被传送到远程外部设备,远程外部设备又提供心力衰竭失代偿指示。 呼吸速率测量类别的实例包括每日最大呼吸率值,每日最小呼吸率值,每日最大呼吸率变异值,每日最小呼吸率变异性值和每日中心呼吸率值。 这些呼吸率测量可以进一步分为白天或夜间呼吸率测量。
    • 99. 发明授权
    • Optical differentiation between plants and background utilizing a single
CCD camera
    • 使用单个CCD相机的植物和背景之间的光学差异
    • US5621460A
    • 1997-04-15
    • US496615
    • 1995-06-29
    • John D. HatlestadGerald F. Sauter
    • John D. HatlestadGerald F. Sauter
    • A01M7/00H04N5/33H04N9/097
    • H04N5/332A01M7/0089H04N5/33H04N9/097
    • An optical system for detecting vegetation with the use of a single image sensor, such as a charge coupled device (CCD) camera is provided by optical elements which project separate red and near infrared (NIR) images onto the CCD camera. The camera then can supply output signals representative of the two images to a signal processing device that determines the nature of the vegetation that provided the original image. Embodiments are described where the imaging sensor utilizes unitary optical splitters to provide wide-angle separate images. In another version a single lens and a group of mirrors provide a narrow-angle telescope device. Another version includes two separate lens, red and NIR filters, each adjacent to one of the lenses so as to project an image on separate areas of the CCD camera.
    • 通过将单独的红色和近红外(NIR)图像投影到CCD照相机上的光学元件,提供了使用诸如电荷耦合器件(CCD)照相机的单个图像传感器来检测植被的光学系统。 相机然后可以将表示两个图像的输出信号提供给确定提供原始图像的植被的性质的信号处理装置。 描述实施例,其中成像传感器利用单一分光器来提供广角分离的图像。 在另一个版本中,单个透镜和一组镜子提供了一个窄角望远镜装置。 另一个版本包括两个独立的镜头,红色和NIR滤镜,每个镜头都与其中一个镜头相邻,以便在CCD相机的不同区域上投影图像。