Unsteady locomotion: integrating muscle function with whole body dynamics and neuromuscular control.
about
Uniqueness of Human Running Coordination: The Integration of Modern and Ancient Evolutionary InnovationsThe series elastic shock absorber: tendon elasticity modulates energy dissipation by muscle during burst decelerationHuman and avian running on uneven ground: a model-based comparisonScaling of sensorimotor control in terrestrial mammalsForelimb kinematics and motor patterns of the slider turtle (Trachemys scripta) during swimming and walking: shared and novel strategies for meeting locomotor demands of water and land.Compensations for increased rotational inertia during human cutting turns.It pays to have a spring in your stepIntegration of intrinsic muscle properties, feed-forward and feedback signals for generating and stabilizing hopping.Task-level strategies for human sagittal-plane running maneuvers are consistent with robotic control policies.Lower limb muscle activity during forefoot and rearfoot strike running techniques.High hamstring tendinopathy in 3 female long distance runners.Leg muscles that mediate stability: mechanics and control of two distal extensor muscles during obstacle negotiation in the guinea fowl.A single muscle's multifunctional control potential of body dynamics for postural control and running.Shifts in a single muscle's control potential of body dynamics are determined by mechanical feedbackMusculoskeletal Geometry, Muscle Architecture and Functional Specialisations of the Mouse HindlimbKinetics and Muscle Activity Patterns during Unweighting and Reloading Transition Phases in RunningUnconstrained muscle-tendon workloops indicate resonance tuning as a mechanism for elastic limb behavior during terrestrial locomotion.Timing matters: tuning the mechanics of a muscle-tendon unit by adjusting stimulation phase during cyclic contractions.Heterogenic feedback between hindlimb extensors in the spontaneously locomoting premammillary cat.Dynamics of goat distal hind limb muscle-tendon function in response to locomotor grade.Robust passive dynamics of the musculoskeletal system compensate for unexpected surface changes during human hopping.Maneuvers during legged locomotion.Alteration of swing leg work and power during human accelerated sprinting.The neural control of interlimb coordination during mammalian locomotion.The role of intrinsic muscle mechanics in the neuromuscular control of stable running in the guinea fowl.Biomechanics and neural control of movement, 20 years later: what have we learned and what has changed?Field swimming performance of bluegill sunfish, Lepomis macrochirus: implications for field activity cost estimates and laboratory measures of swimming performance.Spring-like leg behaviour, musculoskeletal mechanics and control in maximum and submaximum height human hoppingThe scaling of uphill and downhill locomotion in legged animals.Compensations during Unsteady Locomotion.Physical activity alters limb bone structure but not entheseal morphology.Challenging human locomotion: stability and modular organisation in unsteady conditions.Transition by head-on collision: mechanically mediated manoeuvres in cockroaches and small robots.Abdicating power for control: a precision timing strategy to modulate function of flight power muscles.Examination of the perceived agility and balance during a reactive agility task.Non-Steady LocomotionModular Control of Human Movement During Running: An Open Access Data Set
P2860
Q26752646-8CC9CC5E-E74A-439C-98EA-53C3A1A285F9Q27331931-BE4A9795-6CE8-4ACD-A7D1-B90A14DED355Q28074612-A9073712-2994-4606-9C48-33C4ED4E83ACQ28748349-EA641B8F-610B-4072-8C89-07F2948E4922Q30496826-82C622D0-0449-4944-8982-BBFD3DDA8FAEQ33558834-52672CB5-7B7A-48B7-B624-D696E1DC83EBQ33650059-EE62F52A-E9DB-4198-8B1D-7E588E3E7496Q34118917-6CD1362E-CE0B-4F69-AB6C-E1A13DCE7339Q34532484-4D2A7CD0-8E07-48FD-AD8C-BB68F80839C7Q34764547-CB286F73-04D0-4933-90BD-8E41FF31F834Q35032077-32780EC0-1CD5-4517-81BA-11A0E5E91B52Q35088593-7DF98A8F-9C34-4212-8BE6-AE5B43F0999FQ35088622-8490A793-AF06-4269-B408-7F0653AC8D62Q35088627-0A9C27E0-643E-4001-B1CE-31748FDC8E6BQ35999318-6964838E-EF1F-4ED3-89FE-C1D6DBBDC52EQ36228400-1353A756-31CF-4011-830F-2C40F5A1CFA3Q36238430-E68F1FA5-65A3-4AE6-9D4A-1310B02194C5Q36245133-6D0BEBC5-D532-4B85-9060-411D7EB18C08Q37086497-A548F700-13B0-4E3A-AEDC-2ED6085B4C1DQ37242746-762A54B4-E399-4A29-B6EE-C77861DBA300Q37372422-15ECB6BA-244B-49F4-919C-139597D2121DQ37535975-335B6E7C-E9AD-411B-B559-C850E3024B0EQ38843527-440FBAE7-3573-46D1-9E6C-C828E57E4376Q39180629-067F99EB-1605-488C-A98E-F28B6DE0159CQ39988532-E93E3C42-DDF6-49CC-9556-D78A1F38514CQ41275434-4BE9CE6B-E6E5-44DD-AB77-943555CBDE39Q42671301-777F231E-803A-414B-926A-841F887D5689Q42788297-099CB793-1E2D-4116-8657-4E61FBBDD479Q46039432-B777C62B-33D4-4B26-88A1-1B592266C766Q46510062-9D64C0AD-EE70-4A90-9745-90C1CEC41A50Q47213422-8181D8D4-D5CB-47E2-AF08-F191098AC3A8Q49203615-564174ED-9FE8-4A4F-BAF4-F706031C25FEQ50042160-9276F398-8C63-4E57-B1E4-CD9A62BE5723Q52741000-EF3D2AB9-AFD0-49EC-91FD-2DEE36F7CA9BQ55430637-1CE8C5C9-31B0-4FFC-B944-6F1EDC386ECFQ57572331-4FF14EA2-C122-4AD2-A6E3-8006330165B5Q58699015-61C2847D-BAE3-4695-9A6A-1ECA436AA66B
P2860
Unsteady locomotion: integrating muscle function with whole body dynamics and neuromuscular control.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
Unsteady locomotion: integrati ...... ics and neuromuscular control.
@en
type
label
Unsteady locomotion: integrati ...... ics and neuromuscular control.
@en
prefLabel
Unsteady locomotion: integrati ...... ics and neuromuscular control.
@en
P2860
P356
P1476
Unsteady locomotion: integrati ...... ics and neuromuscular control.
@en
P2093
Andrew A Biewener
P2860
P304
P356
10.1242/JEB.005801
P577
2007-09-01T00:00:00Z