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1. Predicting kinetics using musculoskeletal modeling and inertial motion capture

Author

Karatsidis, Angelos, Jung, Moonki, Schepers, H. Martin, Bellusci, Giovanni, de Zee, Mark, Veltink, Peter H., and Andersen, Michael Skipper

Subjects
Physics - Medical Physics
Abstract

Inverse dynamic analysis using musculoskeletal modeling is a powerful tool, which is utilized in a range of applications to estimate forces in ligaments, muscles, and joints, non-invasively. To date, the conventional input used in this analysis is derived from optical motion capture (OMC) and force plate (FP) systems, which restrict the application of musculoskeletal models to gait laboratories. To address this problem, we propose a musculoskeletal model, capable of estimating the internal forces based solely on inertial motion capture (IMC) input and a ground reaction force and moment (GRF&M) prediction method. We validated the joint angle and kinetic estimates of the lower limbs against an equally constructed musculoskeletal model driven by OMC and FP system. The sagittal plane joint angles of ankle, knee, and hip presented excellent Pearson correlations (\rho = 0.95, 0.99, and 0.99, respectively) and root-mean-squared differences (RMSD) of 4.1 $\pm$ 1.3$\circ$, 4.4 $\pm$ 2.0$\circ$, and 5.7 $\pm$ 2.1$\circ$, respectively. The GRF&M predicted using IMC input were found to have excellent correlations for three components (vertical:\rho = 0.97, RMSD=9.3 $\pm$ 3.0 %BW, anteroposterior: \rho = 0.91, RMSD=5.5 $\pm$ 1.2 %BW, sagittal: \rho = 0.91, RMSD=1.6 $\pm$ 0.6 %BW*BH), and strong correlations for mediolateral (\rho = 0.80, RMSD=2.1 $\pm$ 0.6%BW ) and transverse (\rho = 0.82, RMSD=0.2 $\pm$ 0.1 %BW*BH). The proposed IMC-based method removes the complexity and space-restrictions of OMC and FP systems and could enable applications of musculoskeletal models in either monitoring patients during their daily lives or in wider clinical practice., Comment: 19 pages, 4 figures, 3 tables

Published
2018

9. Sensing power transfer between the human body and the environment

Author

Veltink, Peter H., Kortier, Henk, and Schepers, H. Martin

Subjects
Body, Human -- Research, Kinematics -- Research, Sensors -- Usage, Biological sciences, Business, Computers, Health care industry
Abstract

The power transferred between the human body and the environment at any time and the work performed are important quantities to be estimated when evaluating and optimizing the physical interaction between the human body and the environment in sports, physical labor, and rehabilitation. It is the objective of the current paper to present a concept for estimating power transfer between the human body and the environment during free motions and using sensors at the interface, not requiring measurement systems in the environment, and to experimentally demonstrate this principle. Mass and spring loads were moved by hand over a fixed height difference via varying free movement trajectories. Kinematic and kinetic quantities were measured in the handle between the hand and the load. 3-D force and moments were measured using a 6 DOF force/moment sensor module, 3-D movement was measured using 3-D accelerometers and angular velocity sensors. The orientation was estimated from the angular velocity, using the initial orientation as a begin condition. The accelerometer signals were expressed in global coordinates using this orientation information. Velocity was estimated by integrating acceleration in global coordinates, obtained by adding gravitational acceleration to the accelerometer signals. Zero start and end velocities were used as begin and end conditions. Power was calculated as the sum of the inner products of velocity and force and of angular velocity and moment, and work was estimated by integrating power over time. The estimated performed work was compared to the potential energy difference corresponding to the change in height of the loads and appeared to be accurate within 4% for varying movements with net displacements and varying loads (mass and spring). The principle of estimating power transfer demonstrated in this paper can be used in future interfaces between the human body and the environment instrumented with body-mounted miniature 3-D force and acceleration sensors. Index Terms--Ambulatory sensing, force sensing, inertial movement sensing, power estimation, work estimation.

Published
2009

10. Ambulatory estimation of center of mass displacement during walking

Author

Schepers, H. Martin, van Asseldonk, Edwin H.F., Buurke, Jaap H., and Veltink, Peter H.

Subjects
Walking -- Physiological aspects, Gait -- Physiological aspects, Center of mass -- Observations, Acceleration (Mechanics) -- Measurement, Biological sciences, Business, Computers, Health care industry
Abstract

The center of mass (COM) and the center of pressure (CoP) are two variables that are crucial in assessing energy expenditure and stability of human walking. The purpose of this study is to estimate the CoM displacement continuously using an ambulatory measurement system. The measurement system consists of instrumented shoes with 6 DOF force/moment sensors beneath the heels and the forefeet. Moreover, two inertial sensors are rigidly attached to the force/moment sensors for the estimation of position and orientation. The estimation of CoM displacement is achieved by fusing low-pass filtered CoP data with high-pass filtered double integrated CoM acceleration, both estimated using the instrumented shoes. Optimal cutoff frequencies for the low-pass and high-pass filters appeared to be 0.2 Hz for the horizontal direction and 0.5 Hz for the vertical direction. The CoM estimation using this ambulatory measurement system was compared to CoM estimation using an optical reference system based on the segmental kinematics method. The rms difference of each component of the CoM displacement averaged over a hundred trials obtained from seven stroke patients was (0.020 [+ or -] 0.007) m (mean [+ or -] standard deviation) for the forward x-direction, (0.013 [+ or -] 0.005) m for the lateral y-direction, and (0.007 [+ or -] 0.001) m for the upward z-direction. Based on the results presented in this study, it is concluded that the instrumented shoe concept allows accurate and continuous estimation of CoM displacement under ambulatory conditions. Index Terms--Acceleration, ambulatory, balance, center of mass (COM), center of pressure (CoP), gait analysis, human walking.

Published
2009

11. Ambulatory assessment of ankle and foot dynamics

Author

Schepers, H. Martin, Koopman, H.F.J.M., and Veltink, Peter H.

Subjects
Body, Human -- Physiological aspects, Body, Human -- Research, Center of mass -- Research, Biological sciences, Business, Computers, Health care industry
Abstract

Ground reaction force (GRF) measurement is important in the analysis of human body movements. The main drawback of the existing measurement systems is the restriction to a laboratory environment. This paper proposes an ambulatory system for assessing the dynamics of ankle and foot, which integrates the measurement of the GRF with the measurement of human body movement. The GRF and the center of pressure (CoP) are measured using two six-degrees-of-freedom force sensors mounted beneath the shoe. The movement of foot and lower leg is measured using three miniature inertial sensors, two rigidly attached to the shoe and one on the lower leg. The proposed system is validated using a force plate and an optical position measurement system as a reference. The results show good correspondence between both measurement systems, except for the ankle power estimation. The root mean square (RMS) difference of the magnitude of the GRF over 10 evaluated trials was (0.012[+ or -] 0.001) N/N (mean [+ or -] standard deviation), being (1.1 [+ or -] 0.1)% of the maximal GRF magnitude. It should be noted that the forces, moments, and powers are normalized with respect to body weight. The CoP estimation using both methods shows good correspondence, as indicated by the RMS difference of (5.1 [+ or -] 0.7) mm, corresponding to (1.7 [+ or -] 0.3)% of the length of the shoe. The RMS difference between the magnitudes of the heel position estimates was calculated as (18 [+ or -] 6) mm, being (1.4 [+ or -] 0.5)% of the maximal magnitude. The ankle moment RMS difference was (0.004 [+ or -] 0.001) Nm/N, being (2.3 [+ or -] 0.5)% of the maximal magnitude. Finally, the RMS difference of the estimated power at the ankle was (0.02 [+ or -] 0.005) W/N, being (14 [+ or -] 5)% of the maximal power. This power difference is caused by an inaccurate estimation of the angular velocities using the optical reference measurement system, which is due to considering the foot as a single segment. The ambulatory system considers separate heel and forefoot segments, thus allowing an additional foot moment and power to be estimated. Based on the results of this research, it is concluded that the combination of the instrumented shoe and inertial sensing is a promising tool for the assessment of the dynamics of foot and ankle in an ambulatory setting. Index Terms--Ambulatory measurement, center of pressure, dynamics, ground reaction force, inertial sensing.

Published
2007

17. Potato blight tracking in Europe - Results of the EuroBlight potato late blight monitoring in 2018

Author

Johansen, J.G., Lassen, Peter, Cooke, David, Lees, A., Kesseler, G., Schepers, H., Andrivon, Didier, Roselyne, Corbière, Institut de Génétique, Environnement et Protection des Plantes (IGEPP), Institut National de la Recherche Agronomique (INRA)-Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-AGROCAMPUS OUEST, Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro)-Institut national d'enseignement supérieur pour l'agriculture, l'alimentation et l'environnement (Institut Agro), and Institut National de la Recherche Agronomique (INRA)-Université de Rennes (UR)-AGROCAMPUS OUEST

Subjects
ComputingMilieux_MISCELLANEOUS, [SDV.BV.PEP]Life Sciences [q-bio]/Vegetal Biology/Phytopathology and phytopharmacy
Abstract

International audience

Published
2019

18. CoA-dependent activation of mitochondrial acyl carrier protein links four neurodegenerative diseases

Author

Lambrechts, R. A. (Roald A.), Schepers, H. (Hein), Yu, Y. (Yi), van der Zwaag, M. (Marianne), Autio, K. J. (Kaija J.), Vieira‐Lara, M. A. (Marcel A.), Bakker, B. M. (Barbara M.), Tijssen, M. A. (Marina A.), Hayflick, S. J. (Susan J.), Grzeschik, N. A. (Nicola A.), and Sibon, O. C. (Ody C. M.)

Subjects
NDUFAB1, 4′-phosphopantetheinylation, NBIA, Coenzyme A, mtACP
Abstract

PKAN, CoPAN, MePAN, and PDH‐E2 deficiency share key phenotypic features but harbor defects in distinct metabolic processes. Selective damage to the globus pallidus occurs in these genetic neurodegenerative diseases, which arise from defects in CoA biosynthesis (PKAN, CoPAN), protein lipoylation (MePAN), and pyruvate dehydrogenase activity (PDH‐E2 deficiency). Overlap of their clinical features suggests a common molecular etiology, the identification of which is required to understand their pathophysiology and design treatment strategies. We provide evidence that CoA‐dependent activation of mitochondrial acyl carrier protein (mtACP) is a possible process linking these diseases through its effect on PDH activity. CoA is the source for the 4′‐phosphopantetheine moiety required for the posttranslational 4′‐phosphopantetheinylation needed to activate specific proteins. We show that impaired CoA homeostasis leads to decreased 4′‐phosphopantetheinylation of mtACP. This results in a decrease of the active form of mtACP, and in turn a decrease in lipoylation with reduced activity of lipoylated proteins, including PDH. Defects in the steps of a linked CoA‐mtACP‐PDH pathway cause similar phenotypic abnormalities. By chemically and genetically re‐activating PDH, these phenotypes can be rescued, suggesting possible treatment strategies for these diseases.

Published
2019

20. CBX7 Induces Self-Renewal of Human Normal and Malignant Hematopoietic Stem and Progenitor Cells by Canonical and Non-canonical Interactions

Author

Jung, J, Buisman, SC, Weersing, E, Dethmers-Ausema, A, Zwart, E, Schepers, H, Dekker, Mike, Lazare, SS, Hammerl, F, Skokova, Y, Kooistra, SM, Klauke, K, Poot, Raymond, Bystrykh, LV, de Haan, G, Jung, J, Buisman, SC, Weersing, E, Dethmers-Ausema, A, Zwart, E, Schepers, H, Dekker, Mike, Lazare, SS, Hammerl, F, Skokova, Y, Kooistra, SM, Klauke, K, Poot, Raymond, Bystrykh, LV, and de Haan, G

Published
2019

22. Succesvolle studiedag KNPV-werkgroep FRAG-NL rondom fungicidenresitentie

Author

Schepers, H. and Elberse, I.

Subjects
Life Science
Abstract

In veel land- en tuinbouwgewassen worden fungiciden ingezet om schimmels te bestrijden. Sinds 1970 is het meerdere malen voorgekomen dat schimmels resistentie opgebouwd hebben tegen fungiciden, die daardoor hun effectiviteit verliezen. 10 korte bijdragen van diverse onderzoekers.

Published
2018

24. Validation of wearable visual feedback for retraining foot progression angle using inertial sensors and an augmented reality headset

Author

Karatsidis, Angelos (author), Richards, Rosie E. (author), Konrath, Jason M. (author), Van Den Noort, Josien C. (author), Schepers, H. Martin (author), Bellusci, Giovanni (author), Harlaar, J. (author), Veltink, Peter H. (author), Karatsidis, Angelos (author), Richards, Rosie E. (author), Konrath, Jason M. (author), Van Den Noort, Josien C. (author), Schepers, H. Martin (author), Bellusci, Giovanni (author), Harlaar, J. (author), and Veltink, Peter H. (author)

Abstract

Background: Gait retraining interventions using real-time biofeedback have been proposed to alter the loading across the knee joint in patients with knee osteoarthritis. Despite the demonstrated benefits of these conservative treatments, their clinical adoption is currently obstructed by the high complexity, spatial demands, and cost of optical motion capture systems. In this study we propose and evaluate a wearable visual feedback system for gait retraining of the foot progression angle (FPA). Methods: The primary components of the system are inertial measurement units, which track the human movement without spatial limitations, and an augmented reality headset used to project the visual feedback in the visual field. The adapted gait protocol contained five different target angles ranging from 15 degrees toe-out to 5 degrees toe-in. Eleven healthy participants walked on an instrumented treadmill, and the protocol was performed using both an established laboratory visual feedback driven by optical motion capture, and the proposed wearable system. Results and conclusions: The wearable system tracked FPA with an accuracy of 2.4 degrees RMS and ICC=0.94 across all target angles and subjects, when compared to an optical motion capture reference. In addition, the effectiveness of the biofeedback, reflected by the number of steps with FPA value ±2 degrees from the target, was found to be around 50% in both wearable and laboratory approaches. These findings demonstrate that retraining of the FPA using wearable inertial sensing and visual feedback is feasible with effectiveness matching closely an established laboratory method. The proposed wearable setup may reduce the complexity of gait retraining applications and facilitate their transfer to routine clinical practice., Biomechatronics & Human-Machine Control

Published
2018
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25. Succesvolle studiedag KNPV-werkgroep FRAG-NL rondom fungicidenresitentie : Werkgroep fungicidenresistentie : verslag bijeenkomst 28 september 2017

Author

Schepers, H., Elberse, I., Schepers, H., and Elberse, I.

Abstract

In veel land- en tuinbouwgewassen worden fungiciden ingezet om schimmels te bestrijden. Sinds 1970 is het meerdere malen voorgekomen dat schimmels resistentie opgebouwd hebben tegen fungiciden, die daardoor hun effectiviteit verliezen. 10 korte bijdragen van diverse onderzoekers.

Published
2018

28. Analysis of Balance during Functional Walking in Stroke Survivors

Author

Meulen, F.B. van, Weenk, D., Asseldonk, E. van, Schepers, H., Veltink, P., Buurke, J., Meulen, F.B. van, Weenk, D., Asseldonk, E. van, Schepers, H., Veltink, P., and Buurke, J.

Abstract

Contains fulltext : 171316.pdf (publisher's version ) (Open Access)

Published
2016

31. Hand Pose Estimation by Fusion of Inertial and Magnetic Sensing Aided by a Permanent Magnet

Author

Kortier, Henk G., Antonsson, Jacob, Martin Schepers, H., Gustafsson, Fredrik, Veltink, Peter H., Kortier, Henk G., Antonsson, Jacob, Martin Schepers, H., Gustafsson, Fredrik, and Veltink, Peter H.

Abstract

Tracking human body motions using inertial sensors has become a well-accepted method in ambulatory applications since the subject is not confined to a lab-bounded volume. However, a major drawback is the inability to estimate relative body positions over time because inertial sensor information only allows position tracking through strapdown integration, but does not provide any information about relative positions. In addition, strapdown integration inherently results in drift of the estimated position over time. We propose a novel method in which a permanent magnet combined with 3-D magnetometers and 3-D inertial sensors are used to estimate the global trunk orientation and relative pose of the hand with respect to the trunk. An Extended Kalman Filter is presented to fuse estimates obtained from inertial sensors with magnetic updates such that the position and orientation between the human hand and trunk as well as the global trunk orientation can be estimated robustly. This has been demonstrated in multiple experiments in which various hand tasks were performed. The most complex task in which simultaneous movements of both trunk and hand were performed resulted in an average rms position difference with an optical reference system of 19.7 +/- 2.2 mm whereas the relative trunk-hand and global trunk orientation error was 2.3 +/- 0.9 and 8.6 +/- 8.7 deg respectively.

Published
2015
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32. Impact of genetic variation in the SMIM1 gene on Vel expression levels.

Author

Haer-Wigman, L., Stegmann, T.C., Solati, S., Ait Soussan, A., Beckers, E., Harst, P. van der, Hulst-Sundermeijer, M. van, Ligthart, P., Rhenen, D. van, Schepers, H., Haas, M. de, Schoot, C.E. van der, Haer-Wigman, L., Stegmann, T.C., Solati, S., Ait Soussan, A., Beckers, E., Harst, P. van der, Hulst-Sundermeijer, M. van, Ligthart, P., Rhenen, D. van, Schepers, H., Haas, M. de, and Schoot, C.E. van der

Abstract

Item does not contain fulltext

Published
2015

37. Estimation of hand and finger kinematics using inertial sensors

Author

Kortier, H.G., Schepers, H. Martin, Sluiter, Victor IJzebrand, and Veltink, Petrus H.

Subjects
BSS-Biomechatronics and rehabilitation technology, EWI-23045, IR-84153, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, METIS-296287
Abstract

A new dataglove is developed and presented. Inertial sensors are placed on various hand and finger segments to estimate the hand pose.

Published
2013

39. PowerGlove, Concepts and current results

Author

Veltink, Petrus H., Kortier, H.G., Schepers, H. Martin, Sluiter, Victor IJzebrand, Brookhuis, Robert Anton, Lammerink, Theodorus S.J., Wiegerink, Remco J., Leardini, A., and Stagni, R.

Subjects
Load Identification, BSS-Biomechatronics and rehabilitation technology, six degree-of-freedom force / moment sensing, METIS-287959, EWI-22122, Power Sensing, dynamic interaction, IR-81248, Inertial movement sensing
Abstract

Dynamic interaction between the human body and the environment can be assessed by measuring force and estimating velocity at their interface. A sensorized glove with movement and force sensing is developed in which this principles is applied

Published
2012

40. Ambulatory Assesment of Hand Kinematics, using an instrumented glove

Author

Kortier, H.G., Schepers, H. Martin, Sluiter, Victor IJzebrand, Veltink, Petrus H., Leardini, A., and Stagni, R.

Subjects
BSS-Biomechatronics and rehabilitation technology, EWI-22124, Sensor fusion, IR-81223, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, ComputerSystemsOrganization_SPECIAL-PURPOSEANDAPPLICATION-BASEDSYSTEMS, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Hand kinematics, instrumented glove, METIS-287961, Inertial movement sensing
Abstract

Inertial and magnetic sensors, attached to various segments of the human hand, can be used to measure movements of the hand. This paper proposes a new method to assess hand kinematics by applying an Extended Kalman Filter in which prior information of the hand is fused with actual measurements obtained from various sensors.

Published
2012

41. INTERACTION, Training and monitoring of daily-life physical interaction with the environment after stroke

Author

Veltink, Petrus H., van Meulen, Fokke, van Beijnum, Bernhard J.F., Hermens, Hermanus J., De Rossi, D., Lorussi, F., Tognetti, A., Buurke, Jaap, Reenalda, Jasper, Baten, Christian T.M., Nikamp-Simons, Corien Diana Maria, Luft, A.R., Schepers, H. Martin, Luinge, Hendrik J., Paradiso, R., Orselli, R., Leardini, A., Stagni, R., and Faculty of Engineering Technology

Subjects
Daily-life activity, BSS-Biomechatronics and rehabilitation technology, Telemonitoring, Ambulatory monitoring, stroke survivors, onbody feedback, textile-based and micromechanical integrated sensing, Distributed Sensing, Rehabilitation, EWI-22123, unobtrusive monitoring, METIS-287960, IR-81249
Abstract

The objective of the recently started EU project INTERACTION is to develop an unobtrusive and modular system for monitoring the quality of daily-life activities of stroke subjects involving the upper and lower limbs.

Published
2012

42. The development and control of Late Blight (Phytophthora infestans) in Europe in 2010 and 2011

Author

Jens Grønbech Hansen, Andersson, B., Bain, R., Ritchie, F., Gulbis, G., Kildea, S., Cooke, L., Dubois, L., Chatot, C., Filippov, A., Hannukkala, A., Hausladen, H., Hausvater, E., Heldak, J., Vrabcek, P., Hermansen, A., Nærstad, R., Kapsa, J., Koppel, M., Lees, A., Musa, T., Ronis, A., Schepers, H., Vogelaar, K., Vanhaverbeke, P., and Schepers, H.T.A.M.

Published
2012

44. Ambulatory Sensing of the Dynamic interaction between the human body and the environment

Author

Veltink, Petrus H., Schepers, H. Martin, and Cooper, R.A.

Subjects
BSS-Biomechatronics and rehabilitation technology, EWI-17592, METIS-270746, work estimation, Ambulatory, IR-70141, forces sensing, power estimation, Inertial movement sensing, sensing
Abstract

This paper presents a method to estimate power transfer between the human body and the environment during short interactions and relatively arbitrary movements with net displacement and varying loads (mass and spring), and appeared to be accurate within 4%.

Published
2010

46. Ambulatory estimation of ankle and foot dynamics and center of mass movement

Author

Schepers, H. Martin, Koopman, Bart F.J.M., van Asseldonk, Edwin H.F., Buurke, Jaap H., Veltink, Peter H., Spink, Andrew, Ballintijn, Mechteld, Bogers, Natasja, Grieco, Fabrizio, Loijens, Leanne, Noldus, Lucas, Smit, Gonny, Zimmerman, Patrick, and Faculty of Engineering Technology

Abstract

Traditionally, human body movement analysis is done in socalled ‘gait laboratories’, equipped with several measurement systems such as optical position measurement systems, EMG or force plates. The measured signals are used to estimate important gait variables. An important variable is the center of mass, an imaginary point at which the total body mass can be assumed to be concentrated. Several methods exist for center of mass estimation, of which the segmental kinematics method and the double integration of ground reaction force method are the most important ones. Other important variables are joint moment and powers. These can be estimated from estimations of body movement and ground reaction forces by applying inverse dynamics methods. A major drawback of the existing systems is the restriction to the laboratory environment. Therefore research is required for the development of measurement systems to perform these measurements in an ambulatory environment. The objective of this study is to give an overview of the possibilities of the forceshoe. The forceshoe is an ambulatory measurement system able to measure the ground reaction force and movement of foot and ankle.

Published
2008

49. Center of mass movement estimation using an ambulatory measurement sytem

Author

Schepers, H. Martin and Veltink, Petrus H.

Subjects
METIS-245822, EWI-11496, education, IR-64501, human activities
Abstract

Center of Mass (CoM) displacement, an important variable to characterize human walking, was estimated in this study using an ambulatory measurement system. The ambulatory system was compared to an optical reference system. Root-mean-square differences between the magnitudes of the CoM appeared to be comparable to those described in literature.

Published
2007

50. Ambulatory measurement of ground reaction force and estimation of ankle and foot dynamics

Author

Schepers, H. Martin, Koopman, Hubertus F.J.M., Baten, Christian T.M., Veltink, Petrus H., and Faculty of Engineering Technology

Subjects
IR-62040, EWI-11494, METIS-245820
Abstract

INTRODUCTION Traditionally, human body movement analysis is done in so-called ‘gait laboratories’. In these laboratories, body movement is measured by a camera system using optical markers, the ground reaction force by a force plate fixed in the floor, and the muscle activity by EMG. From the body movements and ground reaction forces, joint moments and powers can be estimated by applying inverse dynamics methods. However, the main drawback is the restriction to the laboratory environment. In order to overcome this lab restriction, several research groups try to develop ambulatory measurement systems (e.g. [2]). This study presents an ambulatory measurement system for the measurement of the Ground Reaction Force (GRF), and the estimation of ankle and foot dynamics. METHODS The measurement system consisted of an orthopaedic sandal with two six degrees-of-freedom force/moment sensors beneath the heel and the forefoot (Figure 1). The position and orientation of heel and forefoot were estimated using the 3D accelerometer and 3D gyroscope of two miniature inertial ensors (Xsens Motion Technologies, http://www.xsens), rigidly attached to the force sensors. Moreover, a third inertial sensor was attached to the lower leg. The GRF was measured by the force/moment sensors beneath the shoe. A derivation of the calculation of the dynamics of ankle and foot can be found in [1]. The performance of the developed measurement system was evaluated by comparing the ambulatory measurement system with a reference measurement system, consisting of an optical measurement system (Vicon) and a force plate (AMTI). During the measurements, a healthy subject wearing the instrumented shoes, inertial sensors and optical markers, was asked to walk repeatedly over the force plate. In order to compare the signals measured with both measurement systems, a global coordinate system was defined with the x-axis pointing forward, the y-axis to the right, and the z-axis upward, resulting in a right-handed orthogonal coorinate system. RESULTS AND DISCUSSION The three components of the measured GRF of a healthy subject are shown in Figure 2. The signals measured with the instrumented shoe show good correspondence with the signals measured with the force plate, which is confirmed by the root-mean-square error between the magnitudes of the GRF, being 0.02 N/N or 1.8 % of the maximal magnitude. Figure 3 shows an integration of the measured GRF with the estimated position of the heel and forefoot sensor. The figure indicates the possibility of the ambulatory measurement system to measure several steps during a single measurement, which is not possible with the reference system. A detailed discussion about the performance of the ambulatory measurement system can be found in [1]. REFERENCES 1. Schepers HM, et al. IEEE Trans. Biomed. Eng., Accepted, 2007. 2.Baten CTM, et al. ISEK, Torino, Italy, 2006. ACKNOWLEDGEMENTS This research is part of the FreeMotion project, supported by the Dutch Ministry of Economic Affairs.

Published
2007

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