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Gait

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From standing balance to walking: A single control structure for a continuum of gaits

Decentralized control with cross-coupled sensory feedback between body and limbs in sprawling locomotion

Cortical reactive balance responses to unexpected slippages while walking: a pilot study

A Personalized Approach to Improve Walking Detection in Real-Life Settings: Application to Children with Cerebral Palsy

Scalable closed-form trajectories for periodic and non-periodic human-like walking

Pre-impact detection algorithm to identify lack of balance due to tripping-like perturbations

Scalable closed-form trajectories for periodic and non-periodic human-like walking

Bio-inspired design and validation of the Efficient Lockable Spring Ankle (ELSA) prosthesis

Gait events during turning can be detected using kinematic features originally proposed for the analysis of straight-line walking

Lean synthesis and application to lower-limb exoskeletons

Decentralized control with cross-coupled sensory feedback between body and limbs in sprawling locomotion

Pre-impact detection algorithm to identify lack of balance due to tripping-like perturbations

From standing balance to walking: A single control structure for a continuum of gaits

Cortical reactive balance responses to unexpected slippages while walking: a pilot study

A Personalized Approach to Improve Walking Detection in Real-Life Settings: Application to Children with Cerebral Palsy

Scalable closed-form trajectories for periodic and non-periodic human-like walking

Scalable closed-form trajectories for periodic and non-periodic human-like walking

Bio-inspired design and validation of the Efficient Lockable Spring Ankle (ELSA) prosthesis

Gait events during turning can be detected using kinematic features originally proposed for the analysis of straight-line walking

Lean synthesis and application to lower-limb exoskeletons