| P50 | author | Hendrik Reimann | Q59693480 |
| | Jill Higginson | Q59749651 |
| | Jeremy R Crenshaw | Q82143109 |
| | Tyler Fettrow | Q91686348 |
| | David Grenet | Q91686352 |
| | Elizabeth Thompson | Q91686356 |
| | John Jeka | Q91686363 |
| P2860 | cites work | The effect of the visual characteristics of obstacles on risk of tripping and gait parameters during locomotion | Q23921408 |
| | Too much or too little step width variability is associated with a fall history in older persons who walk at or near normal gait speed | Q24814146 |
| | The uncontrolled manifold concept: identifying control variables for a functional task | Q28138160 |
| | Voluntarily changing step length or step width affects dynamic stability of human walking | Q28397530 |
| | Video capture of the circumstances of falls in elderly people residing in long-term care: an observational study | Q30531777 |
| | Once-per-step control of ankle-foot prosthesis push-off work reduces effort associated with balance during walking | Q30650268 |
| | Risk factors for falls among elderly persons living in the community | Q34169854 |
| | Stepping in the direction of the fall: the next foot placement can be predicted from current upper body state in steady-state walking. | Q34311416 |
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| | Assessment of balance control in humans | Q37851021 |
| | Inter-foot coordination dynamics of quiet standing postures | Q38244734 |
| | Center of mass velocity-based predictions in balance recovery following pelvis perturbations during human walking | Q39905697 |
| | Analysis of gait within the uncontrolled manifold hypothesis: stabilisation of the centre of mass during gait | Q41714064 |
| | Balance control during gait initiation: State-of-the-art and research perspectives | Q45087508 |
| | Human standing and walking: comparison of the effects of stimulation of the vestibular system | Q48399765 |
| | The Frank Stinchfield Award Paper. Internal rotation gait in spastic cerebral palsy | Q48415343 |
| | Responses of human ankle muscles to mediolateral balance perturbations during walking | Q48539311 |
| | Multisensory fusion: simultaneous re-weighting of vision and touch for the control of human posture | Q48580686 |
| | Adjustments to McConville et al. and Young et al. body segment inertial parameters. | Q51810325 |
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| | Neural Control of Balance During Walking | Q57093061 |
| | Any way you look at it, successful obstacle negotiation needs visually guided on-line foot placement regulation during the approach phase | Q58608152 |
| | A comparison of the accuracy of several hip center location prediction methods | Q68788711 |
| | Central programming of postural movements: adaptation to altered support-surface configurations | Q69572894 |
| | Circumstances and consequences of falls in independent community-dwelling older adults | Q73626624 |
| | Bone position estimation from skin marker co-ordinates using global optimisation with joint constraints | Q74533342 |
| | Stiffness control of balance in quiet standing | Q77323531 |
| | Variation in trunk kinematics influences variation in step width during treadmill walking by older and younger adults | Q83037612 |
| | Balance responses to lateral perturbations in human treadmill walking | Q84576309 |
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 12 | |
| P304 | page(s) | e0225902 | |
| P577 | publication date | 2019-12-04 | |
| P1433 | published in | PLOS One | Q564954 |
| P1476 | title | Interdependence of balance mechanisms during bipedal locomotion | |
| P478 | volume | 14 | |