公开(公告)号：US20230343236A1

公开(公告)日：2023-10-26

申请号：US17789135

申请日：2020-12-17

Applicant: THALES

Inventor： Jean-François GAGNON ,  Yannick JAMES ,  Daniel LAFOND

IPC: G09B9/08

CPC classification number: G09B9/08

Abstract: A computer-implemented method and system for providing adaptive training cursus to a trainee is disclosed. In the context of flight training for a given flight, the method allows providing training cursus recommendations by identifying every relevant phase (maneuvers and/or procedures) in a flight mission performed by a trainee; assessing the ease in flight of the trainee during each of these specific phases using an ease in flight algorithm model using psychophysiological parameters; and based on the conjunction of the ease in flight and predefined skills required to perform each phase, providing training cursus recommendations to target specifically the skills which are not yet mastered by the trainee.

公开(公告)号：US20220246055A1

公开(公告)日：2022-08-04

申请号：US17625755

申请日：2020-06-25

Applicant: THALES

Inventor： Serge COUVET ,  Pierre COUSIN ,  Yannick JAMES ,  Pascal PEYRONNET ,  Quentin MICHAL ,  Pierre-Emmanuel GUILLOU

IPC: G09B9/16 ,  A61B5/00

Abstract: A device and a method are provided for analyzing the behavior of a subject moving in an operational environment during a mission, including: synchronized acquisition of a plurality of raw data relating to the subject, to the operational environment and to the mission; on-the-fly cross-processing of the acquired raw data; and real-time generation of processed data from the cross-processing operations, providing instantaneous information about the state and the behavior of the subject; the device is characterized in that all or some of the steps may be implemented so as to activate various operating modes of analyzing and monitoring the behavior of the subject.

公开(公告)号：US20160225192A1

公开(公告)日：2016-08-04

申请号：US15013594

申请日：2016-02-02

Applicant: Thales USA, Inc.

Inventor： Kenneth Milton JONES ,  John POPOOLAPADE ,  Thomas CALLOWAY ,  Thierry LEMOINE ,  Christian JUTTEAU ,  Christophe BRUZY ,  Yannick JAMES ,  Joachim LAGUARDA ,  Dong-Mei Pei XING ,  Sebastien GORGES ,  Paul Michael YARIN

IPC: G06T19/00 ,  G06F3/01 ,  A61B90/00 ,  G06F3/16 ,  A61B34/10 ,  G06T7/00 ,  G06F3/0346

CPC classification number: G06T19/006 ,  A61B34/10 ,  A61B90/37 ,  A61B2034/105 ,  A61B2090/365 ,  A61B2090/368 ,  A61B2090/372 ,  G06F3/011 ,  G06F3/012 ,  G06F3/017 ,  G06F3/0346 ,  G06T19/20 ,  G06T2207/30204 ,  G06T2210/41 ,  G06T2219/2016

Abstract: An augmented reality surgical system includes a head mounted display (HMD) with a see-through display screen, a motion sensor, a camera, and computer equipment. The motion sensor outputs a head motion signal indicating measured movement of the HMD. The computer equipment computes the relative location and orientation of reference markers connected to the HMD and to the patient based on processing a video signal from the camera. The computer equipment generates a three dimensional anatomical model using patient data created by medical imaging equipment, and rotates and scales at least a portion of the three dimensional anatomical model based on the relative location and orientation of the reference markers, and further rotate at least a portion of the three dimensional anatomical model based on the head motion signal to track measured movement of the HMD. The rotated and scaled three dimensional anatomical model is displayed on the display screen.

Abstract translation: 增强现实外科系统包括具有透视显示屏的头戴显示器（HMD），运动传感器，照相机和计算机设备。 运动传感器输出指示HMD的测量移动的头部运动信号。 计算机设备基于处理来自相机的视频信号来计算连接到HMD和患者的参考标记的相对位置和方向。 计算机设备使用由医学成像设备创建的患者数据产生三维解剖模型，并且基于参考标记的相对位置和取向旋转和缩放三维解剖模型的至少一部分，并进一步旋转至少一个 基于头部运动信号的三维解剖模型的一部分来跟踪HMD的测量运动。 旋转和缩放的三维解剖模型显示在显示屏幕上。