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kinematic_model [2018/12/13 09:26] – [Project files] oliverkinematic_model [2023/08/07 00:04] – [Accuracy] oliver
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 **The details of the original model are described here:** **The details of the original model are described here:**
  
-{{pubmed>long:19651514}}+{{pmid>long:19651514}}
          
 **The angles to describe shoulder girdle movement are described here:** **The angles to describe shoulder girdle movement are described here:**
  
-{{pubmed>long:26646907}}+{{pmid>long:26646907}}
  
 {{:fig2.jpg?650|}} {{:fig2.jpg?650|}}
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 **Shoulder internal/external rotation is described by a specific angle definition, called conjunct rotation as described here:** **Shoulder internal/external rotation is described by a specific angle definition, called conjunct rotation as described here:**
  
-{{pubmed>long:19396487}}+{{pmid>long:19396487}}
  
 ====Marker placement==== ====Marker placement====
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 A detailed description of the angles (also several variants are available) is published here: A detailed description of the angles (also several variants are available) is published here:
  
-{{pubmed>long:15844264}}+{{pmid>long:15844264}}
  
 ==== Tip positions ==== ==== Tip positions ====
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 For this RoM the maximum error should be less than 8 degrees in all cases. That is higher than for the other upper extremity joint angles but it sounds worse than it is because typical daily life arm movements have variabilities in the same order. There are several publication about accuracy, e.g.: For this RoM the maximum error should be less than 8 degrees in all cases. That is higher than for the other upper extremity joint angles but it sounds worse than it is because typical daily life arm movements have variabilities in the same order. There are several publication about accuracy, e.g.:
  
-{{pubmed>long:26099159}} +{{pmid>long:26099159}} 
-{{pubmed>long:24856913}} +{{pmid>long:24856913}} 
-{{pubmed>long:21875756}} +{{pmid>long:21875756}} 
-{{pubmed>long:18815043}}+{{pmid>long:18815043}}
  
 ==== Angles ==== ==== Angles ====
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 ^ Name ^ Used values ^ Deprecated values ^ Description ^ ^ Name ^ Used values ^ Deprecated values ^ Description ^
 ^ TYPE | Static_Cal, Static, EllbowFlex/Ext, ShoulderAnte/Retro, ShoulderAbd/Add, Dynamic, Proprio, proprio | ^ TYPE | Static_Cal, Static, EllbowFlex/Ext, ShoulderAnte/Retro, ShoulderAbd/Add, Dynamic, Proprio, proprio |
-CLASS | | | This property was originally used in the Heidelberg Motionlab. Please use TYPE instead. |+CLASS | | | This property was originally used in the Heidelberg Motionlab. Please use TYPE instead. |
 ^ ACTIVITY | Scapula TS, Scapula AI, Scapula AA, Scapula PC, Humerus EL, Humerus EM, Forearm RS, Forearm US | | All of the values can haven an suffix "Pos1" or "Pos2" ... (old deprecated: "Position 1" or "Position 2" ...), if positions are tipped for humerus elevation angles > 90 degrees. | ^ ACTIVITY | Scapula TS, Scapula AI, Scapula AA, Scapula PC, Humerus EL, Humerus EM, Forearm RS, Forearm US | | All of the values can haven an suffix "Pos1" or "Pos2" ... (old deprecated: "Position 1" or "Position 2" ...), if positions are tipped for humerus elevation angles > 90 degrees. |
-POSITION | | | This property was originally used in the Heidelberg Motionlab. Please use ACTIVITY instead. |+POSITION | | | This property was originally used in the Heidelberg Motionlab. Please use ACTIVITY instead. |
 ^ SIDE | Side R, Side L, Both, bds | rechts, links | If a motion or position is side depenended in the meaning it can be done with the right side and the left or with both sides you can define the side. | ^ SIDE | Side R, Side L, Both, bds | rechts, links | If a motion or position is side depenended in the meaning it can be done with the right side and the left or with both sides you can define the side. |
 ^ DESCRIPTION | Abduk, Ante-/Retro, Elevation/Depression, Protraktion/Retraktion ARO/IRO-0, ARO/IRO-90Abduk, ARO/IRO-90Ante | Schuerzengriff, Kaemmen, Armkreisen, Buch, WaschenAchsel, | ^ DESCRIPTION | Abduk, Ante-/Retro, Elevation/Depression, Protraktion/Retraktion ARO/IRO-0, ARO/IRO-90Abduk, ARO/IRO-90Ante | Schuerzengriff, Kaemmen, Armkreisen, Buch, WaschenAchsel, |
-NOTES | | | This property was originally used in the Heidelberg Motionlab. Please use DESCRIPTION instead. |+NOTES | | | This property was originally used in the Heidelberg Motionlab. Please use DESCRIPTION instead. |
 For Vicon Nexus users these properties are available per default. No Vicon Nexus Eclipse-properties configuration is needed any more, for its usage. You only have to set the values for each trial as configured in the projects "job configuration". For Vicon Nexus users these properties are available per default. No Vicon Nexus Eclipse-properties configuration is needed any more, for its usage. You only have to set the values for each trial as configured in the projects "job configuration".
  
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 </code> </code>
  
-The deprecated values are formaly used in the [[http://www.heidel-motionlab.de/|Heidelberg Motionlab]] and should not be used any more. They are only listed to remember if you find these values in older sessions collected in the Heidelberg Motionlab.+The deprecated values are formaly used in the [[http://www.heidel-motionlab.de/|Heidelberg Motionlab]] and should not be used any more. They are only listed to be remembered, if you find these values in older sessions collected in the Heidelberg Motionlab.
  
 You can change the usage of the properties as you want. All is defined in the "job configuration". Have a look at the Nimue platform [[http://nimue-platform.motion-science.org/doku.php?id=glue:processconfiguration|Process documentation]] to understand how to define groups of trials and how to process them. You can change the usage of the properties as you want. All is defined in the "job configuration". Have a look at the Nimue platform [[http://nimue-platform.motion-science.org/doku.php?id=glue:processconfiguration|Process documentation]] to understand how to define groups of trials and how to process them.
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 ==== Project files ==== ==== Project files ====
  
-[[https://github.com/gaitlabhd/Diadochokinesis|Here]] are the Nimue platform based project files. How to clone a github repository is explained [[https://help.github.com/articles/cloning-a-repository/|here]]. +[[https://github.com/gaitlabhd/Diadochokinesis|Here]] are Nimue platform based project files as a starting point to learn how to model with the "Upperlimb" software. How to clone a github repository is explained [[https://help.github.com/articles/cloning-a-repository/|here]]. The model was developed in the [[http://www.heidel-motionlab.de/|Heidelberg Motionlab]] to analyse inter-limb coupling during diadochokinesis in children with bilateral spastic cerebral palsy. Have a look into the [[https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-0035-1550645|Conference abstract]].
- +
-This simple project/model can be used as a starting point to learn how to model with the "Upperlimb" software. +
- +
-The model was developed in the [[http://www.heidel-motionlab.de/|Heidelberg Motionlab]] to analyse inter-limb coupling during diadochokinesis in children with bilateral spastic cerebral palsy. +
- +
-[[https://www.thieme-connect.com/products/ejournals/abstract/10.1055/s-0035-1550645|Conference abstract]]+
kinematic_model.txt · Last modified: 2023/08/07 00:05 by oliver

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