Wearable Movement Sensors for Rehabilitation: From Technology to Clinical Practice
Wearable Movement Sensors for Rehabilitation: From Technology to Clinical Practice
English[eng]
9783040000000
accelerometers||wearable sensors||exercise||measurement||GMFCS level||relative orientation estimation||IMU||magnetometer-free||gait analysis||machine learning||inertial measurement units||neurological disorders||falls||validity||3-D motion analysis||single leg squat||motion capture||clinical||rehabilitation||motor function||outcomes||implementation||locomotion||assistive devices||embedded sensors||accelerometry||physical activity||Fourier transform||functional linear model||walking distance||lower limb amputation||gait||Lie group||constrained extended Kalman filter||pose estimation||wearable devices||distance measurement||gait planning||stride length||center of pressure||human–machine interaction||perinatal stroke||kinematics||upper extremity||cerebral palsy||hemiplegia||constraint||inertial measurement unit||wireless sensors network||motion tracking||range of motion||shoulder||goniometer||spinal cord injury||tetraplegia||clinical setting||circadian motor behavior||body-worn sensors||older adults||physically active workers||low back pain||inertial motion units||wearable sensor||real-time gait detection||insole pressure sensors||pathological gait||gait rehabilitation||assistive device||wearable technology||stroke||physical therapy||arm use||upper limb performance||accelerometer||sensor||walking||n/a
English[eng]
9783040000000
accelerometers||wearable sensors||exercise||measurement||GMFCS level||relative orientation estimation||IMU||magnetometer-free||gait analysis||machine learning||inertial measurement units||neurological disorders||falls||validity||3-D motion analysis||single leg squat||motion capture||clinical||rehabilitation||motor function||outcomes||implementation||locomotion||assistive devices||embedded sensors||accelerometry||physical activity||Fourier transform||functional linear model||walking distance||lower limb amputation||gait||Lie group||constrained extended Kalman filter||pose estimation||wearable devices||distance measurement||gait planning||stride length||center of pressure||human–machine interaction||perinatal stroke||kinematics||upper extremity||cerebral palsy||hemiplegia||constraint||inertial measurement unit||wireless sensors network||motion tracking||range of motion||shoulder||goniometer||spinal cord injury||tetraplegia||clinical setting||circadian motor behavior||body-worn sensors||older adults||physically active workers||low back pain||inertial motion units||wearable sensor||real-time gait detection||insole pressure sensors||pathological gait||gait rehabilitation||assistive device||wearable technology||stroke||physical therapy||arm use||upper limb performance||accelerometer||sensor||walking||n/a