The contribution of muscle properties in the control of explosive movements.
about
Fast Regulation of Vertical Squat Jump during Push-Off in Skilled JumpersOptimizing the Distribution of Leg Muscles for Vertical JumpingValidation of Hill-type muscle models in relation to neuromuscular recruitment and force-velocity properties: predicting patterns of in vivo muscle forceA muscle's force depends on the recruitment patterns of its fibers.Stance and swing phase costs in human walking.In vivo dynamics of the musculoskeletal system cannot be adequately described using a stiffness-damping-inertia model.Integration of intrinsic muscle properties, feed-forward and feedback signals for generating and stabilizing hopping.The cost of moving optimally: kinematic path selectionIntelligence by mechanics.Effect of action verbs on the performance of a complex movementEffects of isometric scaling on vertical jumping performance.Accuracy of gastrocnemius muscles forces in walking and running goats predicted by one-element and two-element Hill-type models.Determining the Optimum Power Load in Jump Squat Using the Mean Propulsive Velocity.Control of position and movement is simplified by combined muscle spindle and Golgi tendon organ feedback.Robust passive dynamics of the musculoskeletal system compensate for unexpected surface changes during human hopping.Inter-disciplinarity in sport sciences: The neuroscience example.An Energetic Model of Low Frequency Isometric Neuromuscular Electrical Stimulation.A phenomenological model and validation of shortening-induced force depression during muscle contractions.Spreading out muscle mass within a Hill-type model: a computer simulation studyComparative Sensitivity Analysis of Muscle Activation Dynamics.Spring-like leg behaviour, musculoskeletal mechanics and control in maximum and submaximum height human hoppingHumans adjust control to initial squat depth in vertical squat jumping.Effect of arm swing on effective energy during vertical jumping: experimental and simulation study.Sensitivity analysis of an energetic muscle model applied at whole body level in recumbent pedalling.Sensor-Motor Maps for Describing Linear Reflex Composition in Hopping.Energy management that generates terrain following versus apex-preserving hopping in man and machine.The influence of biophysical muscle properties on simulating fast human arm movements.The effect of bilateral asymmetry of muscle strength on the height of a squat jump: a computer simulation study.The effect of bilateral asymmetry of muscle strength on jumping height of the countermovement jump: a computer simulation study.The level of performance stabilization influences motor adaptation on an isometric force control task.A two-muscle, continuum-mechanical forward simulation of the upper limb.Equilibrium point control cannot be refuted by experimental reconstruction of equilibrium point trajectories.A Method for Numerical Simulation of Single Limb Ground Contact Events: Application to Heel-Toe Running.Conclusions on motor control depend on the type of model used to represent the periphery.Equivalent linear damping characterization in linear and nonlinear force-stiffness muscle models.Quantifying control effort of biological and technical movements: an information-entropy-based approach.History effect and timing of force production introduced in a skeletal muscle model.On the relevance of structure preservation to simulations of muscle actuated movements.Is equilibrium point control feasible for fast goal-directed single-joint movements?Active control of bias for the control of posture and movement.
P2860
Q27307741-3610B968-3830-4DCC-A1FC-771549D95B54Q28603637-07158232-34FE-4EFA-8D04-9B52E295E20AQ28652191-ABCCD4E1-A890-4555-9773-C1AAB8C4FDFDQ30451317-17CEA77C-943D-460E-AFBD-CE2448D6562DQ30495225-1918B23E-D337-475C-BB6B-3D313ADB8121Q33921030-A071B975-694B-424D-9F9A-DC7DBD014796Q34118917-A4337B3A-A4EE-45AD-B365-F77B771FF810Q34354035-1F316C8B-2ADA-4F91-A2A1-6A3793DD9CEFQ34587633-783A80B0-C5FF-4F3A-9E4A-1642B72DABE2Q34812514-E214B2F7-E991-436C-8A6A-6DFB57D007C4Q34926570-3CCC02CF-7E59-4473-A578-FD3DC0AF96B1Q35116898-43531C30-3A0E-4CC1-A4DC-48A54296E879Q36132904-5A485EB5-F045-4CF9-9B13-823B312B0D0CQ36600777-93E1075A-5113-4F4F-B650-B8D1C15C10E1Q37372422-A31BB2D2-A0A4-43A3-AC7D-3845644021D6Q38916553-A53B9630-C798-4572-867A-9AD82545E38AQ41665707-1C740EB3-70D1-4D66-B5C6-4EEADB684485Q41862077-849D4078-8E82-4C03-B9A9-A702E9C73539Q42010273-4ACBDA27-2A32-4E52-9B8D-D611494AAF60Q42227935-BB0DA676-126F-485C-B9FF-89458185D41CQ42788297-7235717D-8556-4DD8-991D-A6B95C982FDEQ44125615-B23FA4BC-46AB-4174-A8A2-48763BF8EFC1Q44803094-8D38E011-2692-4BDC-933A-F433353E0E13Q46632123-F43B252F-68BA-4B53-AD74-72DF2E8BAF40Q47110762-2C0727D9-C9EF-4422-B5DD-F0E89F47A04BQ47325617-0521EDD6-A802-462D-A093-9E5E7B38ED52Q47350857-03F2BF22-1A82-4B4B-9C3B-9761ADF4071CQ47380330-3474A95F-54CF-4637-8FEF-8B501BCEE053Q47576638-829E9E4C-52FF-45AC-8915-17F50A064DA4Q48050610-67A50A1A-C0B5-478A-A9E0-113C6D95CFBBQ48053208-9443C333-15AF-4697-9C60-C581D927E01EQ48113608-686897F5-C010-400B-97EA-32EC8284EDEDQ49043723-57D7C6A6-58C0-497F-AF57-6D0E5AB8DD9BQ49105650-A893F252-68D5-485D-BD39-5692173A0305Q50721068-6CD25C1F-B5D9-41C5-A471-2764E323F2AAQ51106988-BE9ED64C-674A-4EF5-B911-3B5155776A01Q51463409-906BF490-7D75-4DC5-AB6E-FECE736CBFFBQ51549071-6E1AE7CC-55A6-4C5D-98E1-15A99F36F7D8Q51631448-74753054-D117-4569-9362-B88D9D3C0C3AQ51690710-02F02C97-01D3-4BC9-838A-CCC64D861D31
P2860
The contribution of muscle properties in the control of explosive movements.
description
1993 nî lūn-bûn
@nan
1993 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
1993 թվականի հունվարին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年論文
@yue
1993年論文
@zh-hant
1993年論文
@zh-hk
1993年論文
@zh-mo
1993年論文
@zh-tw
1993年论文
@wuu
name
The contribution of muscle properties in the control of explosive movements.
@ast
The contribution of muscle properties in the control of explosive movements.
@en
The contribution of muscle properties in the control of explosive movements.
@nl
type
label
The contribution of muscle properties in the control of explosive movements.
@ast
The contribution of muscle properties in the control of explosive movements.
@en
The contribution of muscle properties in the control of explosive movements.
@nl
prefLabel
The contribution of muscle properties in the control of explosive movements.
@ast
The contribution of muscle properties in the control of explosive movements.
@en
The contribution of muscle properties in the control of explosive movements.
@nl
P356
P1476
The contribution of muscle properties in the control of explosive movements.
@en
P2093
A J van Soest
M F Bobbert
P2860
P2888
P304
P356
10.1007/BF00198959
P577
1993-01-01T00:00:00Z
P6179
1049041046