ammr / Git / [bfdf16] /Body/AAUHuman/LegTLEM/Calibration/OuterHipCal.any

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[bfdf16]: / Body / AAUHuman / LegTLEM / Calibration / OuterHipCal.any
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AnyFolder OuterHipCal ={
  AnyComponentDefinition obj = {};  

  AnyFolder &Pelvis = ...HumanFolderRef.Trunk.SegmentsLumbar.PelvisSeg;
  AnyFolder &Sacrum = ...HumanFolderRef.Trunk.SegmentsLumbar.SacrumSeg;
  
  AnyFolder &LegSegSide = .SideHumanFolderRef.Leg.Seg;
  
  AnyFolder &LegJointsSide = .SideHumanFolderRef.Leg.Jnt;
  AnyFolder &SacrumPelvisJnt = ...HumanFolderRef.Trunk.JointsLumbar.SacrumPelvisJnt;
  
  
  AnyFixedRefFrame ground = {
    AnyRefNode node = { 
      ARel=..Pelvis.Axes0;
      sRel=..Pelvis.r0;
    };
  };
  
  AnyKinEq PelvisFix = {
    AnyKinLinear PelvisSacrumLinFix = {
      AnyRefFrame &ground = ..ground.node;
      AnyRefFrame &Pelvis = .....HumanFolderRef.Trunk.SegmentsLumbar.PelvisSeg;
    };
    AnyKinRotational PelvisSacrumRotFix = {
      Type = RotAxesAngles;
      AnyRefFrame &ground = ..ground.node;
      AnyRefFrame &Pelvis = .....HumanFolderRef.Trunk.SegmentsLumbar.PelvisSeg;
    };
  };
  
  AnyKinEqSimpleDriver PelvisSacrumFix = {
    AnyKinMeasure& Jnt = .SacrumPelvisJnt;
    DriverPos = {0,0,0};
    DriverVel = {0,0,0};
    Reaction.Type = {Off,Off,Off}; 
  }; 
  
  AnyKinEqInterPolDriver Hip = {
    AnyKinRotational &Spherical = ..SideInterfaceFolderRef.HipFlexion.HipMeasure;
    Type = PiecewiseLinear;
    T =      {0.0, 1.0 };
    Data = { {-10,  90},
             {40,  -25},
             {30,  0}
           }*pi/180; // Flexion - Abduction - external rotation 
    
    Reaction.Type = {Off, Off, Off};
  };
  
  AnyKinEqInterPolDriver Knee = {
    AnyKinMeasure& Hinge = ..SideInterfaceFolderRef.KneeFlexion;
    Type = PiecewiseLinear;
    T =      {0.0, 1.0 };
    Data = {{10,140}}*pi/180; // ? degrees knee flexion
    Reaction.Type = {Off};
  };
  
  AnyKinEqInterPolDriver Ankle = {
    AnyKinMeasure& Hinge = ..SideInterfaceFolderRef.AnklePlantarFlexion;
    Type = PiecewiseLinear;
    T =      {0.0, 1.0 };
    Data = {{0,40}}*pi/180; // 0 to 40 % plantar flexion
    Reaction.Type = {Off};
  };
  
  AnyKinEqInterPolDriver SubTalar = {
    AnyKinMeasure& Hinge = ..SideInterfaceFolderRef.SubTalarEversion;
    Type = PiecewiseLinear;
    T =      {0.0, 1.0 };
    Data = {{0,0}}*pi/180;
    Reaction.Type = {Off};
  };
  
  AnyString MusPrefix = CompleteNameOf(&.SideHumanFolderRef.Leg.Mus);
  
  AnyObjectPtrArray GluteusMediusMuscles = ObjSearch(MusPrefix+".GluteusMedius*", "AnyMuscle");
  AnyFloat  GluteusMediusRmin = repmat(NumElemOf(GluteusMediusMuscles), 0.5);
  AnyFloat  GluteusMediusRmax = repmat(NumElemOf(GluteusMediusMuscles), 1.2);

  AnyObjectPtrArray GluteusMinimusMuscles = ObjSearch(MusPrefix+".GluteusMinimus*", "AnyMuscle");
  AnyFloat  GluteusMinimusRmin = repmat(NumElemOf(GluteusMinimusMuscles), 0.5);
  AnyFloat  GluteusMinimusRmax = repmat(NumElemOf(GluteusMinimusMuscles), 1.2);
  
  AnyObjectPtrArray TensorFasciaeLataeMuscles = ObjSearch(MusPrefix+".TensorFasciaeLatae*", "AnyMuscle");
  AnyFloat  TensorFasciaeLataeRmin = repmat(NumElemOf(TensorFasciaeLataeMuscles), 0.5);
  AnyFloat  TensorFasciaeLataeRmax = repmat(NumElemOf(TensorFasciaeLataeMuscles), 1.2);
};

// The study: Operations to be performed on the model
AnyBodyCalibrationStudy LegCalibrationStudyOuterHip = {
  AnyFolder &ref=.OuterHipCal; 
  nStep = 2;
  MuscleArr = arrcat(
      ref.GluteusMediusMuscles,
      ref.GluteusMinimusMuscles,
      ref.TensorFasciaeLataeMuscles
  );
  RminMuscleFiber = arrcat(
      ref.GluteusMediusRmin,
      ref.GluteusMinimusRmin,
      ref.TensorFasciaeLataeRmin
  );
  RmaxMuscleFiber = arrcat(
      ref.GluteusMediusRmax,
      ref.GluteusMinimusRmax,
      ref.TensorFasciaeLataeRmax
  );
  InitialConditions.SolverType = KinSolOverDeterminate;
};