Abstract Foot orientation can be assessed in realtime by means of a foot-mounted inertial sensor. We consider a method that uses only accelerometer and gyroscope readings to calculate the foot pitch and roll angle, i.e. the foot orientation angle in the sagittal and frontal plane, respectively. Since magnetometers are avoided completely, the method can be used indoors as well as in the proximity of ferromagnetic material and magnetic disturbances. Furthermore, we allow for almost arbitrary mounting orientation in the sense that we only assume one of the local IMU coordinate axes to lie in the sagittal plane of the foot. The method is validated with respect to a conventional optical motion capture system in trials with transfemoral amputees walking with shoes and healthy subjects walking barefoot, both at different velocities. Root mean square deviations of less than 4° are found in all scenarios, while values near 2° are found in slow shoe walking. This demonstrates that the proposed method is suitable for realtime application such as the control of FES-based gait neuroprostheses and active orthoses.
[1]
Andrea Giovanni Cutti,et al.
Gait analysis in children with cerebral palsy via inertial and magnetic sensors
,
2012,
Medical & Biological Engineering & Computing.
[2]
P H Veltink,et al.
Three dimensional inertial sensing of foot movements for automatic tuning of a two-channel implantable drop-foot stimulator.
,
2003,
Medical engineering & physics.
[3]
Thomas Seel,et al.
IMU-Based Joint Angle Measurement for Gait Analysis
,
2014,
Sensors.
[4]
Angelo M. Sabatini,et al.
Assessment of walking features from foot inertial sensing
,
2005,
IEEE Transactions on Biomedical Engineering.
[5]
Thomas Seel,et al.
Online Gait Phase Detection with Automatic Adaption to Gait Velocity Changes Using Accelerometers and Gyroscopes
,
2014
.
[6]
P. Savage.
Strapdown Inertial Navigation Integration Algorithm Design Part 1: Attitude Algorithms
,
1998
.
[7]
Alfred D. Grant.
Gait Analysis: Normal and Pathological Function
,
2010
.