Human motion tracking is widely used for assessment of movement dysfunction in orthopaedic patients. Currently, most clinical motion analysis centres use marker based three-dimensional (3D) systems as they are deemed to be the most accurate method. However, due to space, costs and logistics they are not available in many clinical settings. This study compared joint angles measured in functional tests using the novel low-cost Microsoft Kinect Perfect Phorm system with the established marker based Nexus VICON system. When measuring right and left knee flexion, the average difference between the VICON and Kinect Perfect Phorm measurement was 13.2%, with a SD of 19.6. Both overestimation and underestimation of the joint angle was recorded in di...
Motion capturing is a promising method to assess working postures and human movements and, therewith...
Objective: To investigate whether a three-dimensional camera (Microsoft KinectTM) and a Smartphone c...
Background. Marker-less systems based on digital video cameras and deep learning for gait analysis c...
The Microsoft Kinect is a cheap consumer device capable of markerless body segment tracking. While i...
Abstract Background The Opti_Knee system, a marker-based motion capture system, tracks and analyzes ...
Many new measurement tools are becoming available for physiotherapists; however, there is often a la...
Orthopaedic surgery is currently a field that is reactive, rather than proactive. A movement screeni...
Microsoft Kinect for Windows v2 is a motion analysis system that features a markerless human pose es...
Introduction: Microsoft Kinect™ (MK) is a markerless, cheap and suitable technology that could be us...
Motion analysis systems deliver quantitative information, e.g. on the progress of rehabilitation pro...
PerfectPhorm is a recently released motion tracking system that needs to be validated before its imp...
Introduction: Microsoft Kinect\u2122 (MK) is a markerless, cheap and suitable technology that could ...
Introduction Markerless motion capture systems are relatively new devices that can significantly spe...
Background: Marker based motion capture (MBS) is the preferred method for 3D motion analysis in spor...
Background: Several rehabilitation systems based on inertial measurement units (IMU) are entering th...
Motion capturing is a promising method to assess working postures and human movements and, therewith...
Objective: To investigate whether a three-dimensional camera (Microsoft KinectTM) and a Smartphone c...
Background. Marker-less systems based on digital video cameras and deep learning for gait analysis c...
The Microsoft Kinect is a cheap consumer device capable of markerless body segment tracking. While i...
Abstract Background The Opti_Knee system, a marker-based motion capture system, tracks and analyzes ...
Many new measurement tools are becoming available for physiotherapists; however, there is often a la...
Orthopaedic surgery is currently a field that is reactive, rather than proactive. A movement screeni...
Microsoft Kinect for Windows v2 is a motion analysis system that features a markerless human pose es...
Introduction: Microsoft Kinect™ (MK) is a markerless, cheap and suitable technology that could be us...
Motion analysis systems deliver quantitative information, e.g. on the progress of rehabilitation pro...
PerfectPhorm is a recently released motion tracking system that needs to be validated before its imp...
Introduction: Microsoft Kinect\u2122 (MK) is a markerless, cheap and suitable technology that could ...
Introduction Markerless motion capture systems are relatively new devices that can significantly spe...
Background: Marker based motion capture (MBS) is the preferred method for 3D motion analysis in spor...
Background: Several rehabilitation systems based on inertial measurement units (IMU) are entering th...
Motion capturing is a promising method to assess working postures and human movements and, therewith...
Objective: To investigate whether a three-dimensional camera (Microsoft KinectTM) and a Smartphone c...
Background. Marker-less systems based on digital video cameras and deep learning for gait analysis c...