Gonabadi et al., AMERICAN SOCIETY OF BIOMECHANICS (ASB) 2021

Gonabadi et al., AMERICAN SOCIETY OF BIOMECHANICS (ASB) 2021

hello i am arash i am going to talk about my poster which is about differences between holly class time profile estimations using indirect energy we can not identify which phase of the gate cycle has more or less metallica’s consumption recent simulation methods are lost estimating the time performance only class and the name of these studies to compare the estimations of the number of methods of the metabolic cause by two methods we use the data from our peribusiness study reference number three basically we estimated the time profile of metallica’s using two methods first the ambergris method which is based on the electromagnetic and kinetic of the data and they are input for most versatile simulation in open sim software and also we use the join space model from roberts which is based on the join moment and joint angular velocity and you can see in figure number two interfero chart the red boxes are the umbrella method and the blue box is the robert network and the left three boxes are the inputs the process emg the joint angle and the joint moment the metallic cost was then estimated with the equation from amberger and we modified that as well the cause of the phases to be similar to those from studies that use use similar methods as our study and you can see in the table number one here we separated or partitioned the table in first double single support second double and swing phase and you see the musculoskeletal simulation from hamburger from robert and from robert from day paper and hamburger from the ap repair and two more references the first two are our methods in our project and you see they are more or less same but we don’t know the exams even though our estimations match well with the experimental studies there are considerable differences in simulation based estimation of metabolic costs of different phases of the gait cycle possibly because of the required required assumption in each simulation method advances the estimation of time profile of metabolic costs could lead to practical applications such as designing rehabilitation robots that assist specifically during the phase with the highest metabolic cost thank you so much for your time
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Gonabadi et al., AMERICAN SOCIETY OF BIOMECHANICS (ASB) 2021

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