Add to ORKGnone4noneM.C. Bisi; H. Houdjik ; R. Stagni; G. GnudiM.C. Bisi; H. Houdjik ; R. Stagni; G. Gnud
none4noneBisi M.C.; Riva F.; Stagni R.; Gnudi GBisi M.C.; Riva F.; Stagni R.; Gnudi
This chapter contains sections titled: Introduction; Phenomenological Models of EMG; Elements of Str...
Since it is difficult to measure muscle or joint forces in human body, biomechanical models are ofte...
none4The relationship between mechanical work and metabolic energy cost during movement is not yet c...
none4noneBisi M.C.; Houdjik H.; Stagni R.; Gnudi G.Bisi M.C.; Houdjik H.; Stagni R.; Gnudi G
none4noneBisi M.C.; Riva F.; Stagni R.; Gnudi G.;Bisi M.C.; Riva F.; Stagni R.; Gnudi G.
none4noneM.C. Bisi; H. Houdjik; R. Stagni; G. GnudiM.C. Bisi; H. Houdjik; R. Stagni; G. Gnud
muscle energy consumption during locomotion, based on computational models and muscle blood flow mea...
During exercise the skeletal muscular tissues are exposed to both mechanical and metabolic loading. ...
none4noneM.C. Bisi ; R. Stagni; H. Houdjik; G. GnudiM.C. Bisi ; R. Stagni; H. Houdjik; G. Gnud
An EMG-driven muscle model is described and applied to the analysis of a loaded squat movement, vert...
A mathematical model analogous to Chance's "transfer function" was derived on the basis of the energ...
Energy from food is supplied to the human body in the form of chemical energy in the muscles. This m...
Abstract: The human body metabolic regulatory system is very complex, containing thousands of metabo...
<p>(1) represents the Anatomical Model used to estimate muscle-tendon lengths and moment arms, (2) a...
none4noneBisi M.C.; Riva F.; Stagni R.; Gnudi GBisi M.C.; Riva F.; Stagni R.; Gnudi
This chapter contains sections titled: Introduction; Phenomenological Models of EMG; Elements of Str...
Since it is difficult to measure muscle or joint forces in human body, biomechanical models are ofte...
none4The relationship between mechanical work and metabolic energy cost during movement is not yet c...
none4noneBisi M.C.; Houdjik H.; Stagni R.; Gnudi G.Bisi M.C.; Houdjik H.; Stagni R.; Gnudi G
none4noneBisi M.C.; Riva F.; Stagni R.; Gnudi G.;Bisi M.C.; Riva F.; Stagni R.; Gnudi G.
none4noneM.C. Bisi; H. Houdjik; R. Stagni; G. GnudiM.C. Bisi; H. Houdjik; R. Stagni; G. Gnud
muscle energy consumption during locomotion, based on computational models and muscle blood flow mea...
During exercise the skeletal muscular tissues are exposed to both mechanical and metabolic loading. ...
none4noneM.C. Bisi ; R. Stagni; H. Houdjik; G. GnudiM.C. Bisi ; R. Stagni; H. Houdjik; G. Gnud
An EMG-driven muscle model is described and applied to the analysis of a loaded squat movement, vert...
A mathematical model analogous to Chance's "transfer function" was derived on the basis of the energ...
Energy from food is supplied to the human body in the form of chemical energy in the muscles. This m...
Abstract: The human body metabolic regulatory system is very complex, containing thousands of metabo...
<p>(1) represents the Anatomical Model used to estimate muscle-tendon lengths and moment arms, (2) a...
none4noneBisi M.C.; Riva F.; Stagni R.; Gnudi GBisi M.C.; Riva F.; Stagni R.; Gnudi
This chapter contains sections titled: Introduction; Phenomenological Models of EMG; Elements of Str...
Since it is difficult to measure muscle or joint forces in human body, biomechanical models are ofte...