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    • 1. 发明申请
    • Active Fingertip-Mounted Object Digitizer
    • 主动指尖安装对象数字化仪
    • US20090278798A1
    • 2009-11-12
    • US11828463
    • 2007-07-26
    • Young-Seok KimThenkurussi Kesavadas
    • Young-Seok KimThenkurussi Kesavadas
    • G06F3/033
    • G06F3/0346G06F3/011G06F3/014G06F3/016G06F3/017G06F2203/0331
    • A finger-mounted implement including a kinesthetic sensor, at least one tactile sensor, and means for securing the kinesthetic sensor and the at least one tactile sensor to a fingertip. The tactile sensor may be a thin-film force transducer, a piezoelectric accelerometer, or a combination thereof. An artificial fingernail may be connected to the accelerometer. The kinesthetic sensor may include a magnetic transducer and may sense an X-Y-Z position and an angular orientation of a fingertip to which the kinesthetic sensor is secured. The securing means may include at least one means selected from the group consisting of adhesive tape, an elastically deformable cover, and detachable adhesive. The implement can be further connected to a computer processing system for, amongst other things, the virtual representation of sensed objects. The implement can also be used as part of a method of haptic sensing of objects.
    • 一种手指式工具,其包括运动感应传感器,至少一个触觉传感器,以及用于将感觉传感器和至少一个触觉传感器固定到指尖的装置。 触觉传感器可以是薄膜力传感器,压电加速度计或其组合。 人造指甲可以连接到加速度计。 动觉传感器可以包括磁换能器,并且可以感测X-Y-Z位置和固定感觉传感器的指尖的角度定向。 固定装置可以包括从粘合带,可弹性变形的盖和可拆卸粘合剂组成的组中选择的至少一种装置。 该装置可以进一步连接到计算机处理系统,用于除其他之外,感测对象的虚拟表示。 该工具还可以用作触觉感测物体的方法的一部分。
    • 2. 发明授权
    • Method and system for minimally-invasive surgery training using tracking data
    • 使用跟踪数据进行微创手术训练的方法和系统
    • US09595207B2
    • 2017-03-14
    • US13806891
    • 2011-05-26
    • Thenkurussi KesavadasKhurshid Guru
    • Thenkurussi KesavadasKhurshid Guru
    • G09B23/28
    • G09B23/28G06F19/00
    • A system and method for training a person in minimally-invasive surgery (“MIS”) utilizing a video of the MIS. The system comprises a processor, a display, and a first interaction device. The processor programmed to receive the video and to obtain tracking data. The tracking data may correspond to the motion of a tool controller. The tracking data may correspond to motion of a first surgical tool in the video. The processor programmed to calculate motion of the first interaction device corresponding to the tracking data, to display the video, and to cause the first interaction device to move according to the calculated motion. The method comprises receiving the video, obtaining the tracking data, calculating a motion of a first interaction device corresponding to the tracking data, displaying the video, and causing the first interaction device to move according to the calculated motion.
    • 一种利用管理信息系统的视频来训练微创手术(“MIS”)的人的系统和方法。 该系统包括处理器,显示器和第一交互设备。 处理器被编程为接收视频并获取跟踪数据。 跟踪数据可对应于工具控制器的运动。 跟踪数据可以对应于视频中的第一外科手术工具的运动。 所述处理器被编程为计算对应于所述跟踪数据的所述第一交互装置的运动,以显示所述视频,并且使所述第一交互装置根据所计算的运动而移动。 该方法包括接收视频,获得跟踪数据,计算与跟踪数据相对应的第一交互装置的运动,显示视频,以及使第一交互装置根据所计算的运动而移动。
    • 3. 发明申请
    • Method and System for Automatic Tool Position Determination for Minimally-Invasive Surgery Training
    • 微创外科手术自动刀具位置确定方法与系统
    • US20130288214A1
    • 2013-10-31
    • US13806889
    • 2011-05-26
    • Thenkurussi KesavadasKhurshid Guru
    • Thenkurussi KesavadasKhurshid Guru
    • G09B5/02G09B23/28
    • G09B5/02G09B23/28G09B23/285
    • The present invention may be embodied as a method of minimally-invasive surgery (“MIS”) training using a video of an MIS comprising the steps of providing a processor, a display, and a first input device. The method comprises the step of processing the video using the processor to determine a location of the first surgical tool in each of the frames, determining whether the configuration of the first input device substantially corresponds to the location of the first surgical tool in each frame of the video while the video is displayed. The present invention may be embodied as a system for MIS training. The system comprises a processor, a communication device, and a first input device in communication with the processor. The processor is programmed perform any or all of the described disclosed methods.
    • 本发明可以被实现为使用MIS的视频的微创手术(“MIS”)训练的方法,包括提供处理器,显示器和第一输入设备的步骤。 该方法包括以下步骤:使用处理器处理视频以确定每个帧中的第一外科手术工具的位置,确定第一输入装置的配置是否基本上对应于第一外科手术工具在每一帧中的位置 视频显示时的视频。 本发明可以被实现为用于MIS训练的系统。 该系统包括处理器,通信设备和与处理器通信的第一输入设备。 处理器被编程执行所描述的所公开的方法中的任何一个或全部。
    • 5. 发明申请
    • System For Robotic Surgery Training
    • 机器人手术训练系统
    • US20090305210A1
    • 2009-12-10
    • US12402303
    • 2009-03-11
    • Khurshid GuruThenkurussi KesavadasGovindarajan Srimathveeravalli
    • Khurshid GuruThenkurussi KesavadasGovindarajan Srimathveeravalli
    • G09B23/28
    • A system according to the invention may include a frame, a computer, a display, and two input devices. The frame may be adjustable, may be made from a lightweight material, and may fold for easier portability. The display and the computer may be in communication with each other and each may be attached to the frame. The display may be a binocular display, or may be a touchscreen display. Additional displays may be used. Two input devices may be used to simulate the master console of a surgical robot. The input devices may be articulated armature devices suitable for providing 3D input. The input devices may be attached to the frame in an “upside-down” configuration wherein a base of each input device is affixed to the frame such that a first joint of an arm is below the base. The input devices may be in communication with the computer and may provide positional signals to the computer. The positional signals may correspond to a position of an arm of each input device.
    • 根据本发明的系统可以包括框架,计算机,显示器和两个输入设备。 框架可以是可调节的,可以由轻质材料制成,并且可以折叠以便于便于携带。 显示器和计算机可以彼此通信,并且每个可以附接到框架。 显示器可以是双目显示器,或者可以是触摸屏显示器。 可以使用附加的显示器。 可以使用两个输入装置来模拟外科手术机器人的主控制台。 输入设备可以是适于提供3D输入的铰接式电枢装置。 输入设备可以以“倒置”配置附接到框架,其中每个输入设备的基座固定到框架,使得臂的第一接头在基座下方。 输入设备可以与计算机通信,并且可以向计算机提供位置信号。 位置信号可以对应于每个输入装置的臂的位置。
    • 7. 发明申请
    • Method and System for Minimally-Invasive Surgery Training Using Tracking Data
    • 使用跟踪数据进行微创手术训练的方法和系统
    • US20130295540A1
    • 2013-11-07
    • US13806891
    • 2011-05-26
    • Thenkurussi KesavadasKhurshid Guru
    • Thenkurussi KesavadasKhurshid Guru
    • G09B23/28
    • G09B23/28G06F19/00
    • A system and method for training a person in minimally-invasive surgery (“MIS”) utilizing a video of the MIS. The system comprises a processor, a display, and a first interaction device. The processor programmed to receive the video and to obtain tracking data. The tracking data may correspond to the motion of a tool controller. The tracking data may correspond to motion of a first surgical tool in the video. The processor programmed to calculate motion of the first interaction device corresponding to the tracking data, to display the video, and to cause the first interaction device to move according to the calculated motion. The method comprises receiving the video, obtaining the tracking data, calculating a motion of a first interaction device corresponding to the tracking data, displaying the video, and causing the first interaction device to move according to the calculated motion.
    • 一种利用管理信息系统的视频来训练微创手术(“MIS”)的人的系统和方法。 该系统包括处理器,显示器和第一交互设备。 处理器被编程为接收视频并获取跟踪数据。 跟踪数据可对应于工具控制器的运动。 跟踪数据可以对应于视频中的第一外科手术工具的运动。 所述处理器被编程为计算对应于所述跟踪数据的所述第一交互装置的运动,以显示所述视频,并且使所述第一交互装置根据所计算的运动而移动。 该方法包括接收视频,获得跟踪数据,计算与跟踪数据相对应的第一交互装置的运动,显示视频,以及使第一交互装置根据所计算的运动而移动。
    • 9. 发明申请
    • Method And System For Minimally-Invasive Surgery Training
    • 微创外科手术方法与系统
    • US20100285438A1
    • 2010-11-11
    • US12723579
    • 2010-03-12
    • Thenkurussi KesavadasKhurshid GuruGovindarajan Srimathveeravalli
    • Thenkurussi KesavadasKhurshid GuruGovindarajan Srimathveeravalli
    • G09B23/28
    • A61B17/00234A61B34/30A61B2017/00119A61B2017/00707A61B2090/364G09B23/285
    • The present invention may be embodied as a method of minimally-invasive surgery (“MIS”) training wherein a simulator having a display, a computer, and a first input device, is provided. A video of an MIS is displayed on the display, and a first surgical tool is visible in at least a portion of the video. A match zone corresponding to a position on the first surgical tool is determined. A computer-generated virtual surgical tool (“CG tool”) is superimposed on the displayed video. The CG tool is selectively controlled by the first input device. A target position of the CG tool is determined. If the target position is not determined to be within the match zone, further steps may be taken. For example, the video may be paused, a message may be displayed to the operator, or the computer may signal the input device to move to a position such that the target position is within the match zone.
    • 本发明可以被实施为一种微创手术(“MIS”)训练的方法,其中提供了具有显示器,计算机和第一输入装置的模拟器。 在显示器上显示MIS的视频,并且在视频的至少一部分中可见第一外科手术工具。 确定与第一外科手术工具上的位置对应的匹配区域。 计算机生成的虚拟手术工具(“CG工具”)叠加在所显示的视频上。 CG工具由第一输入装置选择性地控制。 确定CG工具的目标位置。 如果目标位置未被确定在匹配区域内,则可以采取进一步的步骤。 例如,视频可以被暂停,可以向操作者显示消息,或者计算机可以向输入设备发信号以移动到使得目标位置在匹配区域内的位置。