| Code |
Image |
Size |
Caption |
| app001 |
 |
Column
Width Size
|
Cerebral
palsy patient. Split video image - front and side views of subject under
test |
| app002 |
|
Column
Width Size |
Rehabilitation
patient fitted with reflective markers on cycle exercise machine |
| app003 |
 |
A5
Size
Column
Width Size |
Example
of Vicon hand marker set with labels (4mm size) |
| app004
|
 |
A4
Size
A5
Size
Column
Width |
Subject
in virtual environment with head mounted display |
| app005 |
 |
Column
Width |
Wand
wave calibration using the Vicon DynaCal calibration |
| app006
|
 |
A4
Size
A5
Size
Column
Width |
Subject
on treadmill fitted with the Vicon spine marker set (rear view) |
| app007
|
 |
A4
Size
A5
Size
Column
Width |
Subject
on treadmill fitted with the Vicon spine marker set (front view) |
| app008
|
 |
A4
Size
A5
Size
Column
Width |
Subject
on treadmill fitted with the Vicon spine marker set (side view) |
| app009
|
 |
A4
Size
A5
Size
Column
Width |
Subject
on treadmill fitted with the Vicon spine marker set (angled rear view) |
| app010 |
 |
A4
Size
A5
Size
Column
Width |
Subject
under test fitted with EMG and Vicon reflective markers in Italian gait
laboratory with Vicon 612 movement analysis system |
| app011
|
 |
A4
Size
A5
Size
Column
Width |
The
Jewish Rehabiliation Hospital, Montreal. Posture and balance experiments
on moving platform using a Vicon 512 system with Vicon M-Series IR camera |
| app012
|
 |
A4
Size
A5
Size
Column
Width |
The
Jewish Rehabilitation Hospital, Montreal. Posture and balance experiments
on moving platform using a Vicon 512 system with Vicon M-Series IR camera |
| app013 |
 |
A4
Size
A5
Size
Column
Width |
Amputee
patient at Texas Scottish Rite Hospital for Children, Dallas enjoys a
gait analysis study with a Vicon system |
| app014 |
 |
A4
Size
A5
Size
Column
Width |
Frontal
view of a subject fitted with reflective markers and wearing the Atlanta
Scottish Rite abduction orthosis during gait testing using a Vicon system
in a Legge-Calve Perthes study |
| app015 |
 |
A4
Size
A5
Size
Column
Width |
A
Vicon system is used in the Movement Science Laboratory, Texas Scottish
Rite Children's Hospital, Dallas, USA, for monitoring spinal motion during
axial twisting on an idiopathic scoliosis patient before spinal infusion
|
| app016 |
 |
A4
Size
A5
Size
Column
Width |
An
amputee undergoes cycling performance tests in the Biomechanics Lab at
the Australian Institute of Sport in Canberra using a Vicon movement analysis
system |
| app017 |
 |
A4
Size
A5
Size
Column
Width |
A
physical therapist at the Center for Gait and Movement Analysis at The
Children's Hospital, Denver, Colorado, USA prepares a subject for testing
on a Vicon system |
| app018 |
 |
A4
Size
A5
Size
Column
Width |
Evaluating
golf swing with a Vicon system at the Sports Science Laboratory, University
of Wales, Swansea, UK |
| app019 |
 |
A4
Size
A5
Size
Column
Width |
A
physical therapist at The Shriners Hospital for Children, Greenville,
USA fixes reflective markers to a patient prior to a gait analysis study
using a Vicon system |
| app020 |
 |
A4
Size
A5
Size
Column
Width |
A
patient is prepared for gait analysis with a Vicon system at The Association
for Assistance for Crippled Children gait laboratory in Sao Paulo, Brazil
|
| app021 |
 |
A4
Size
A5
Size
Column
Width |
Top
athlete Liz McColgan in the Grampian Gait Movement Analysis Centre, Aberdeen,
Scotland runs with Vicon |
| app022 |
 |
A4
Size
A5
Size
Column
Width |
A
view of the Movement Laboratory at The Bambino Gesu Children's Hospital,
Palidoro, Italy showing the Vicon 512 movement analysis system in action
with six Vicon cameras |
| app023 |
 |
A4
Size
A5
Size
Column
Width |
A
child with sacral level spina bifida, fitted with reflective markers,
commences a movement analysis study with a Vicon system |
| app024 |
 |
A4
Size
A5
Size
Column
Width |
The
new Vicon System, incorporating the latest high performance cameras
(MCam2), being set up in the Gait Laboratory in the Nuffield Orthopaedic
Centre in Oxford, England.
|
| app025 |
 |
A4
Size
A5
Size
Column
Width |
Demonstration
of gait analysis at the opening of the French Red Cross Rehabilitation
Centre for Children, Bois Larris, near Paris where a Vicon system has
been installed. |
| app026 |
 |
A4
Size
A5
Size
Column
Width |
The
President of the French Red Cross, Pr Marc Gentilini, with part of the
Vicon system at the opening of the new gait analysis facility at the Rehabilitation
Centre for Children, Bois Larris, near Paris. |
| app027 |
 |
A4
Size
A5
Size
Column
Width |
A
new Vicon movement analysis system is installed in the French Red Cross
Rehabilitation Centre for Children, Bois Larris, near Paris. |
| app028 |
 |
A4
Size
A5
Size
Column
Width |
A
dummy model is fitted with Vicon reflective markers ready for a demonstration
at the opening of the French Red Cross Rehabilitation Centre for Children,
Bois Larris, near Paris. |
| app029 |
 |
A4
Size
A5
Size
Column
Width |
One
of the wall mounted Vicon cameras looks down over the newly opened gait
analysis laboratory at the French Red Cross Rehabilitation Centre for
Children, Bois
Larris, near Paris, where one of the latest Vicon movement analysis systems
in operation. |
| app30 |
 |
original
A4
Size
A5
Size
Column
Width |
Full
body, lower limb model (Shriners Hospital for Children, Erie, PA, USA) |
| app031 |
 |
original
A4
Size
A5
Size
Column
Width |
Frontal,
lower limb model (Shriners Hospital for Children, Erie, PA, USA) |
| app032 |
 |
original
A5
Size
Column
Width |
Legs
(Shriners Hospital for Children, Erie, PA, USA) |
| app033 |
 |
original
A5
Size
Column
Width |
Lower
limb model (Shriners Hospital for Children, Erie, PA, USA) |
| app034 |
 |
original
A5
Size
Column
Width |
A
subject fitted with markers in the lab prior to study. A new camera is
visible in the background (Centre for Sports Medicine Research and Education,
University of Melbourne, Australia). |
| app035 |
 |
original
Column
Width |
Tracked
by Vicon cameras, the subject proceeds along the walkway (Centre for Sports
Medicine Research and Education, University of Melbourne, Australia). |
| app036 |
 |
original
Column
Width |
Upper
limb motion studies (Institute of Biomedical Engineering, University of
New Brunswick). |
| app037 |
 |
original
Column
Width |
Whole
body assessment of lifting tasks (Institute of Biomedical Engineering,
University of New Brunswick). |
| app038 |
 |
original
Column
Width |
Lab
set up for comparison of Vicon with other measurement systems
(Institute of Biomedical Engineering, University of New Brunswick). |
| app039 |
 |
original
A5
Size
Column
Width |
Sit
to stand versus sit to walk in young children (Department of Physical
Therapy, University of Central Arkansas, USA) |
| app040 |
 |
original
A5
Size
Column
Width |
The
Helen-Hayes marker set-up (Laboratory for Functional Morphology, University
of Antwerp, Belgium) |
| app041 |
 |
original
Column
Width |
Morphometrical
Analysis (Laboratory for Functional Morphology, University of Antwerp,
Belgium) |
| app042 |
 |
original
A4
Size
A5
Size
Column
Width |
Researcher
Anmin Liu arranges the cameras in relation to the cadaver foot once markers
are mounted (Centre for Rehabilitation and Human Performance Research,
University of Salford). |
| app043 |
 |
original
A4
Size
A5
Size
Column
Width |
Video
fluoroscopy is used to verify pin position prior to testing (Centre for
Rehabilitation and Human Performance Research, University of Salford).
|
| app044 |
 |
original
A4
Size
A5
Size
Column
Width |
The
Iowa State Walking Simulator. Motors for applying muscle forces are on
top, eyelets for attachment of muscles are in the centre below the pneumatically
loaded knee (Centre for Rehabilitation and Human Performance Research,
University of Salford). |
| app045 |
 |
original
A4
Size
A5
Size
Column
Width |
One
foot mounted and ready for testing(Centre for Rehabilitation and Human
Performance Research, University of Salford).
|
| app046 |
 |
original
A4
Size
A5
Size
Column
Width |
A
model with reflective markers begins to proceed along the walkway(Centre
for Rehabilitation and Ageing, University of London, England) |
| app047 |
 |
original
A5
Size
Column
Width |
An investigation into muscle activation and knee joint loading during
a side-stepping manoeuvre (School of Human Movement and Exercise Science,
University of Western Australia) |
| app048 |
 |
original
Column
Width |
An
evaluation of Lycra arm splints in children with cerebral palsy (School
of Human Movement and Exercise Science, University of Western Australia) |
| app049 |
 |
original
A4
Size
A5
Size
Column
Width |
Engineering a Better Runner: Limits to sustained Bipedal Locomotion (School
of Human Movement and Exercise Science, University of Western Australia). |
| app050 |
 |
original
Column
Width |
Demonstration
of Vicon equipment at opening ceremony, Motion Analysis Laboratory, School
of Health and Bioscience, UEL |
| app051 |
 |
original
A4
Size
A5
Size
Column
Width |
Golf
Swing (Department of Biomechatronic Engineering, Sungkyunwan University,
Korea)
|
| app052 |
 |
original
A4
Size
A5
Size
Column
Width |
Lower Body Markers,
(Sahva A/S) |
| app053 |
 |
original
A4
Size
A5
Size
Column
Width |
Alternative
motions for entering a car, (Digital Human Research Center, National Institute
of Advanced Industrial Science and Technology, Japan). |
| app054 |
 |
original
A4
Size
A5
Size
Column
Width |
Experimental
set-up for capturing hand motions.
CG representation
of hand motions with 20 links and 40 DOF, but using only 25 surface markers.
(Digital Human Research
Center, National Institute of Advanced Industrial Science and Technology,
Japan). |
| app055 |
 |
original
A4
Size
A5
Size
Column
Width |
Experimental
set-up for the human and humanoid walk analysis, (Digital Human Research
Center, National Institute of Advanced Industrial Science and Technology,
Japan). |
| app056 |
 |
original
A4
Size
A5
Size
Column
Width |
Predefined
shoulder motion for the joint center calibration. The estimated joint center
was located at the end of the humerus , (Digital Human Research Center,
National Institute of Advanced Industrial Science and Technology, Japan). |
| app057 |
 |
original
A4
Size
A5
Size
Column
Width |
Three
dimensional reconstruction of Vicon markers and the shoulder joint complex
from CT scans,(The School of Human Movement and Exercise Science, University
of Western Australia) |
| app058 |
 |
original
A5
Size
Column
Width |
Upper
Body Model, not all markers can be seen, (The School of Human Movement and
Exercise Science, University of Western Australia).
(Picture
courtesy of Tom Rovis-Hermann, West Australian newspaper)
|
| app059 |
 |
original
A4
Size
A5
Size
Column
Width |
The pointer
method used for determining the lateral elbow epicondyle position relative
to the upper arm triad,(The School of Human Movement and Exercise Science,
University of Western Australia).
(Picture
courtesy of Tom Rovis-Hermann, West Australian newspaper)
|
| app060 |
 |
original
A5
Size
Column
Width |
The
WA Symphony Orchestra's principal cellist, Rod McGrath undergoing testing
,(The School of Human Movement and Exercise Science, University of Western
Australia)
(Picture courtesy
ofWest Australian newspaper) . |
| app061 |
 |
original
A4
Size
A5
Size
Column
Width |
Trajectory
of Shoulder Segment without (top) and with (below) KAFOs, (Down Syndrome
Research Foundation and Centre for Human Movement Analysis, Queen Alexandra
Centre for Children's Health, Victoria, B.C., Canada ) |
