2012 IEEE/RSJ International Conference on Intelligent Robots and Systems 2012
DOI: 10.1109/iros.2012.6385702
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Real-time estimate of period derivatives using adaptive oscillators: Application to impedance-based walking assistance

Abstract: Inferring temporal derivatives (like velocity and acceleration) from a noisy position signal is a well-known challenge in control engineering, due to the intrinsic trade-off between noise filtering and estimation bandwidth. To tackle this problem, in this paper we propose a new approach specifically designed for periodic movements. This approach uses an adaptive oscillator as fundamental building block. It is a tool capable of synchronizing to a periodic input while learning its features (frequency, amplitude,… Show more

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Cited by 17 publications
(7 citation statements)
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“…This result was expected since it reflects the behavior of the AOs to better track signals with a lower frequency content. In fact, the AOs behave like low-pass filters with zero delay [32]. Noticeably, the frequency content of the shank orientation was lower than that of the foot (Figure 7); thus, the AOs can more accurately track the kinematics of the proximal body segments during steady locomotion.…”
Section: Discussionmentioning
confidence: 99%
“…This result was expected since it reflects the behavior of the AOs to better track signals with a lower frequency content. In fact, the AOs behave like low-pass filters with zero delay [32]. Noticeably, the frequency content of the shank orientation was lower than that of the foot (Figure 7); thus, the AOs can more accurately track the kinematics of the proximal body segments during steady locomotion.…”
Section: Discussionmentioning
confidence: 99%
“…Similarly, an adaptive oscillator-based estimation method was developed to predict cyclical/periodic trajectory during walking assistance. 42 In Kamalia et al, 43 a trajectory generator was designed to predict the time-normalized sit-to-stand trajectory based on a previously collected database of sample trajectories. Compared with the above methods, the trajectory generator in our research can modulate the desired trajectory in real-time according to the gait variation and motion intention of human.…”
Section: Joint Trajectory Generatormentioning
confidence: 99%
“…Given the cycle feature of gait analysis, AO is a natural way of modeling or generating periodic behavior (Buchli et al, 2004;Ronsse et al, 2011a;Yan et al, 2017;Xue et al, 2019). Ronsse et al (2011bRonsse et al ( , 2012 first applied AO to estimate the user's intended movement while performing a cyclical motion task such as walking. As shown in Figure 5b, Lenzi et al (2013) proposed an assistive controller which can compute the current stride percent by combining the left foot heel strike detection with the gait cycle estimated through an adaptive frequency oscillator.…”
Section: Gait Phase Estimationmentioning
confidence: 99%
“…Ronsse et al ( 2011b , 2012 ) first applied AO to estimate the user’s intended movement while performing a cyclical motion task such as walking. As shown in Figure 5b , Lenzi et al ( 2013 ) proposed an assistive controller which can compute the current stride percent by combining the left foot heel strike detection with the gait cycle estimated through an adaptive frequency oscillator.…”
Section: Control Strategy Of Robotic Hip Exoskeletonmentioning
confidence: 99%