Why Motion Capture?

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Transcript Why Motion Capture? 

Markerless Motion Capture
Computer Vision Systems
BioStageTM for the Life Sciences
October 2010
Draft Version
3/29/10
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Markerless Motion Capture
Overview kinematic systems
Camera-based
Video
Camera
Marker-less
Systems
BioStage
Sensor-based
Infra-red
Camera
Marker-based
Systems
PEAK
SIMI
Marker-based
Systems
Aktiv-Marker
Passiv-Marker
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Goniometer
– 1D, 2D
Electromagn.
Sensors – 3D
Polhemus
Vicon
MAC
Qualisys
Optitrack
Inertial
Sensors
Xsens MVN
Animazoo IGS-190
motion sensors
(accelerometers) and
rotation sensors
(gyroscopes) to
calculate the position,
orientation, and velocity
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Markerless Motion Capture
Biomech analysis systems
Anthropometry
 “Body”
Kinematics
 “Motion”
Kinetics
 “Forces”
Electromyography
 “Neuromusc.
Control”
BioStage
Body- Dimensions
-Structure
- Proportion
Position,
Angle, Velocity,
etc.
Forces,
Moments,
Pressure
Distribution
Muscleactionpotiential
Kinesiological Analysis
Data integration & Correlation
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Markerless Motion Capture
Planes of Motion
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Markerless Motion Capture
Joint Actions – i.e. hip
http://www.brianmac.co.uk/musrom.htm
http://www.physicalsolutions.co.uk/articles/Understanding%20Planes%20and%20Axes%20of%20Movement.
pdf
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Markerless Motion Capture
BioStage - Research
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Biomechanics
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Kinesiology
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Exercise Science
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Physical Therapy
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Physical Medicine & Rehabilitation
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Human Movement Science
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Health, Physical Education, and Recreation
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Biomedical Engineering
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Markerless Motion Capture
BioStage – Clinical Applications
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Orthopaedics
Cerebral Palsy
Neuroscience
Physical and Occupational Therapy
Rehabilitation
Podiatry
Chiropractic
Posturology
Sports Medicine
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Markerless Motion Capture
BioStage – Sports Applications
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Golf
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Baseball Pitching and Throwing
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Fitness
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Biking
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Tennis
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Soccer
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et altri
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Markerless Motion Capture
Applications and Benefits
for
Clinical Apps and the Academics
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Markerless Motion Capture
BioStage – Specific Clinical Use
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Pre-and post surgery evaluations
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Rehabilitative Treatment
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Lower extremities - Gait Analysis
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Upper body Analysis
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Orthopaedic Joint Replacements
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Posture Analysis
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Orthotics and Prosthesis Development
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Markerless Motion Capture
Clinical Motion Analysis to…
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develop predictive models of pathology
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diagnose/quantify functional limitations
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identify multi-level motion problems
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document functional status
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support Healthcare Research
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Markerless Motion Capture
Motion Analysis – General Benefits
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Surgeon  optimize their techniques
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Surgeon  design an optimal surgical plan
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Surgeon  determine if and when surgery is necessary
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Implant designer  improve devices
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Coach  better quantify improvement / loss of performance during training
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Patient  better educated by seeing changes
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Athlete  better quantify improvement by comparing with other athletes
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Club owner  find out if athlete is prone for injury
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PT/Rehab doctor  better quantify improvement during therapy
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Health care system  long-term improvement in cost and quality of treatment
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Student  Easier access to motion capture technology
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Markerless Motion Capture
Benefits for Clinical Apps
• Reduced patient preparation time
• Easier on patients with impairments
• Easier for nurses to work with patients
• More natural movement leads to higher data quality
• Immediate results and reports available to doctor and patient for review
• True and valid data comparison over repeated trials
• Reduced cost for motion analysis for the patient and the doctor
• Fun 3D immersive visuals encourage patients to exercise more often
• Improved exercise experience, patients are more actively engaged in
recovery regime
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Markerless Motion Capture
Benefits for the Academics
• Markerless system allows all students to get hands-on
experience with computerized motion analysis
• Streamlined real-time capture process for fixed class times
and research timelines
• User-friendly interfaces ideal for multi-discipline and
interdepartmental use
• A state-of-the-art-solution to attract students, businesses, and
professionals to the University
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Markerless Motion Capture
Challenges
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Tracking children
Tracking subjects with impairments (cannot stand or walk
straight, arms close to the torso, etc.)
Tracking of amputees
Tracking of subject in wheel chairs, using walker, cane,
crutches or other equipment
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Tracking internal / external rotation
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What validation have you done?
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What is the accuracy of the data?
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Do you have any publications?
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Markerless Motion Capture
Integration Software & Hardware
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Markerless Motion Capture
Integrated Motion Analysis
Kinematics
Video
OM
Motion
Tracking
TMM
Motion
Analysis
Software
Force Plates
Forces and
Moments
Kinetic
EMG
Muscle
Activity
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Markerless Motion Capture
Integration The MotionMonitor
Real Time Animation
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Kinematics
Kinetics
EMG
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Markerless Motion Capture
Integration Force Plates
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Measurement of floor reaction forces in 3 dimensions
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Markerless Motion Capture
Integration EMG
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Wireless EMG
electrodes
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Markerless Motion Capture
Validation and Accuracy
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Markerless Motion Capture
BioStage Model
BioStage Model
Tracking of 21 Segments
Segment length directly
measured or derived from
separate measurements
Static and dynamic
(functional) user
calibration
Length ratios based on
Drillis and Contini (1966)
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Markerless Motion Capture
Joint Degree of Freedom
BioStage Model
Head/Neck:
3DoF
Neck/Upper Chest:
1DoF
Upper Chest/Mid Torso: 3DoF
Mid / Lower Torso:
3DoF
Hip Joint:
3DoF
Knee Joint:
3DoF
Ankle Joint:
1DoF
Shoulder Joint:
3DoF
Elbow Joint:
1DoF
Wrist:
Locked to lower arm
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Markerless Motion Capture
Validation study in Cologne
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Evaluation and Acurracy tests
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Comparison with Vicon system
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Jan 2010 – Jun 2010
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Goal: Proof translational accuracy of 5mm and rotational
accuracy of 3deg
Problem: Reference marker-less with marker-based
Institut für
Biomechanik und Orthopädie
German Sports Science University in Cologne
Prof. G.P. Brueggemann
Kai Oberländer
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Markerless Motion Capture
Validation Goals
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Show accuracy
Validate vs existing systems
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provide a fitting system that ensures precise, repeatable, consistent
length measurements of human bones/segments.
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deliver anthropometric measurements through a defined protocol in a
totally "non-invasive" method in real-time.
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evaluate BioStage, its performance, and to assess its accuracy,
reliability and suitability for use in research, sports and clinical
settings.
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perform an assessment of errors that affect temporal, kinematic, and
kinetic variables when estimated by means of the proposed
markerless system compared to the existing markerbased motion
capture systems using reflective markers currently used in motion
analysis.
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validate BioStage for biomechanical research, sports and clinical use
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Markerless Motion Capture
Validation and Accuracy
Overview
Organic Motion - BioStage
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Markerless Motion Capture
Validation and Accuracy
Overview
Organic Motion - BioStage
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Markerless Motion Capture
Validation and Accuracy
Overview
Organic Motion - BioStage
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Markerless Motion Capture
2D Video Analysis / Full Range of Motion
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Gait
Squatting
Pendulum motion
Organic Motion - BioStage
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Markerless Motion Capture
Validation and Accuracy
Overview
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Markerless Motion Capture
Validation and Accuracy
Overview
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Validation and Accuracy
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Markerless Motion Capture
Validation and Accuracy
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Markerless Motion Capture
Validation and Accuracy
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Markerless Motion Capture
Validation and Accuracy
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Markerless Motion Capture
Validation and Accuracy
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Markerless Motion Capture
Validation and Accuracy
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Markerless Motion Capture
Tradeshows
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Markerless Motion Capture
Important Tradeshows
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CSM (Combined Section Meeting)
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ACSM (American College of Sports Med)
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APTA (American PT Association)
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ASB (American Society of Biomechanics)
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ISBS (Internat. Society of Biom.in Sports)
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GCMAS (Gait and Clinical MovAnal Society)
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AACPDM (American Academy for Cerebral
Palsy and Developmental Medicine )
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