Introduction movies
	Introduction footscan® (7.13Mb) Why a pressure measurement system? how to play
	Introduction RSscan INTERNATIONAL (5.40Mb) The company, its facilities, the products,... how to play
	A Belgian examination center (12.75Mb) how to play
	A Belgian University set up (38.81Mb) how to play
	bike measurement with footscan® insole system (4.28Mb) how to play
	discus measurements with footscan® insole system (6.70Mb) how to play
	high jump measurements with footscan® insole system (12.66Mb) how to play
	high jump measurements with footscan® 2m plate system (8.02Mb) how to play
	polevault measurements with footscan® 2m plate system (34.75Mb) how to play
	footscan on china news (13.06Mb) how to play
	polevault measurements with footscan® insole system (13.60Mb) how to play
	footscan as a helptool in a running shop (14.24Mb) how to play
	footscan and D3D as a helptool in a running shop (4.80Mb) how to play
	soccer measurement with a footscan® system (10.63Mb) how to play
	horse measurements with a footscan® plate system (45.69Mb) how to play
	human walk measurements with a footscan flexible solution system (4.33Mb) how to play
	footscan insole measurements (11.79Mb) how to play
	prostetic sprint measurements with a footscan® system (7.99Mb) how to play
	shotput measurements with a footscan® insole system (3.86Mb) how to play
	Case Studies
	footscan® examination of CP Children (11.75Mb) how to play
	footscan® examination of a Diabetic patient (20.70Mb) how to play
	footscan® examination of an international Basketbalplayer (18.07Mb) how to play
	footscan® examination of Quaziz Zahra, an international athlete (19.49Mb) how to play
	footscan® Insoles combined with an EMG system on a treadmill (11.53Mb) how to play
	Measurement with a footscan® 2m plate ( bytes) The footscan® 2m plate is the ideal equipment to measure different following steps and to avoid targeting of the patient.
	Walk of the Human foot
	Walk of the Human foot A visualization of the movement of the foot during several kinds of actions, can be done by a video camera, or by the calculation of the Center Of Pressure line by using a footscan pressure measurement system. A video camera image gives more visual information about neighboring joints, but gives a global overview. With a dynamic pressure measurement system, we get additional information about total contact time and different time parameters: % heellanding, % midstance, % footflat, % push off. The ideal image is the combination of a video movie and a dynamic pressure measurement movie. In this way, frame per frame, can be seen which pressure, at which time phase and which movement in neighbouring joints are performed. See following movies:
	footscan® videos - Exorotation movement (1.04Mb)
	footscan® videos - Pronation movement (904.21kb)
	footscan® videos - Forefoot pronation (777.34kb)
	footscan® videos - Rearfoot pronation (738.33kb)
	Camera images - Entire movement (lateral view) (1.23Mb)
	Camera images - Entire movement (medial view) (476.59kb)
	Camera images - Entire movement (bottom view) (727.64kb)
	Camera images - Partial movement (heellanding) ( bytes)
	Camera images - Partial movement (midstance - footflat) ( bytes)
	Camera images - Specials (patient with prosthetic leg) ( bytes)
	Camera images - Partial movement (push off) ( bytes)
	Camera images - Specials (cut movement lateral view) ( bytes)
	Camera images - Specials (cut movement bottom view) ( bytes)
	Camera images - Specials (torsion movement) ( bytes)
	Walk of animals
	Walk of animals (6.23Mb) Not only the human walk but also the walk of animals can be measured by the footscan dynamic pressure measurement systems. These movies show the bipedal and quadrupedal walk of a Bonobo, taken at the Zoo of Plankendael, Belgium. The purpose of this studie is to examine the processes underlying the gradual evolutionary shift from quadrupedal locomotion to upright, bipedal locomotion. See: how to play
	Bipedal Bonobo walk (201.00kb)
	Quadripedal Bonobo walk (174.00kb)
	Other applications are the examination of the pressure distribution under the bovine claw. This was investigated to test the hypothesis that the ground reaction force is unevenly distributed and makes some regions of the claw more prone to overloading and injury than others. See publications. Further, the footscan pressure measurement plates are used to measure the difference in pressure distribution between a shod and an unshod horse’s hoof.
	D3D concept
	Athletes training with D3D (4.55Mb) how to play
	Athletes winning with D3D (19.61Mb) how to play
	D3D production site (27.37Mb) how to play