All Classes Namespaces Functions Variables Typedefs Enumerations Enumerator Pages
Class Hierarchy
This inheritance list is sorted roughly, but not completely, alphabetically:
[detail level 123456789]
oCfmatvec::Atom [external]
|oCMBSim::ContactKinematics [external]
||oCMBSimFlexibleBody::ContactKinematicsCircleFlexibleBandPairing solid cirlce to flexible band, planar only
||oCMBSimFlexibleBody::ContactKinematicsCircleHollowCylinderFlexiblePairing CircleHollow to CylinderFlexible
||oCMBSimFlexibleBody::ContactKinematicsCircleNode
||oCMBSimFlexibleBody::ContactKinematicsCircleNodeInterpolation
||oCMBSimFlexibleBody::ContactKinematicsCircleNurbsDisk2sContact kinematics for contact between circle and nurbsdisk2s
||oCMBSimFlexibleBody::ContactKinematicsPointCylinderFlexiblePairing point to cylinder flexible
||\CMBSimFlexibleBody::ContactKinematicsPointNurbsDisk2sPairing point to nurbs disk
|\CMBSim::Element [external]
| oCMBSim::Contour [external]
| |oCMBSimFlexibleBody::Contour1sBasic class for contours described by one contour parameter $s$
| ||oCMBSimFlexibleBody::Contour1sFlexibleNumerical description of contours with one contour parameter
| |||\CMBSimFlexibleBody::CylinderFlexibleFlexible cylinder for one dimensional flexible bodies
| ||oCMBSimFlexibleBody::Contour1sNeutralFactory
| |||oCMBSimFlexibleBody::Contour1sNeutralCosserat
| |||oCMBSimFlexibleBody::Contour1sNeutralFlexibleBody1SReferenceCurveClass that sets up the neutral contour for the body FlexibleBody1SReferenceCurve Not that as interface the lagrange coordinate "s" is used
| |||\CMBSimFlexibleBody::Contour1sNeutralLinearExternalFFR
| ||oCMBSimFlexibleBody::FlexibleBand
| ||\CMBSimFlexibleBody::NurbsCurve1sContour 1s flexible with NURBS parametrization
| |oCMBSimFlexibleBody::Contour2sBasic contour described by two contour parameters $\vs$
| ||oCMBSimFlexibleBody::Contour2sNeutralFactory
| |||\CMBSimFlexibleBody::Contour2sNeutralLinearExternalFFR
| ||\CMBSimFlexibleBody::NurbsDisk2s2s flexible
| |\CMBSimFlexibleBody::ContourContinuum< AT >Basic class for contours described by a parametrisation
| oCMBSim::Frame [external]
| |oCMBSim::ContourFrame [external]
| ||\CMBSim::FloatingRelativeContourFrame [external]
| || \CMBSimFlexibleBody::FloatingRelativeFlexibleContourFrameTbd
| |oCMBSimFlexibleBody::FixedNodalFrameFixed nodal frame on flexible bodies
| |oCMBSimFlexibleBody::Frame1s
| |oCMBSimFlexibleBody::Frame2s
| |\CMBSimFlexibleBody::NodeFrameCartesian frame on nodes of flexible bodies
| oCMBSim::FunctionBase [external]
| |oCMBSim::Function< fmatvec::RotMat3(fmatvec::VecV, double)> [external]
| ||\CMBSimFlexibleBody::AnglesNode class for angle parametrisation
| || oCMBSimFlexibleBody::CardanCardan parametrisation
| || \CMBSimFlexibleBody::RevCardanReversed kardan parametrisation
| |oCMBSim::Function< fmatvec::SqrMat(fmatvec::Vec)> [external]
| ||\CMBSimFlexibleBody::PositionJacobianComputation of FiniteElement1s33RCM position JACOBIAN (cp-angles and bending)
| |oCMBSim::Function< fmatvec::SqrMatV(double)> [external]
| ||oCMBSimFlexibleBody::funcPTdPdqk
| ||oCMBSimFlexibleBody::funcPTdPdt
| ||\CMBSimFlexibleBody::funcPTdPdxi
| |oCMBSim::Function< fmatvec::SymMatV(double)> [external]
| ||\CMBSimFlexibleBody::funcPTP
| |oCMBSim::Function< fmatvec::Vec(fmatvec::Vec)> [external]
| ||oCMBSimFlexibleBody::gethFunc
| ||\CMBSimFlexibleBody::PositionFunction
| |\CMBSim::Function< fmatvec::Vec1(double)> [external]
| | oCMBSimFlexibleBody::funcForWb
| | oCMBSimFlexibleBody::funcForWgammaThis function returns basically three values. As these share some values it makes sense to not compute them all the time again..
| | \CMBSimFlexibleBody::funcForWn
| \CMBSim::Object [external]
|  \CMBSim::Body [external]
|   oCMBSimFlexibleBody::FlexibleBodyUpmost class for flexible body implementation
|   |oCMBSimFlexibleBody::FlexibleBodyContinuum< double >
|   |oCMBSimFlexibleBody::FlexibleBodyContinuum< fmatvec::Vec >
|   |oCMBSimFlexibleBody::FlexibleBodyContinuum< fmatvec::Vec2 >
|   |oCMBSimFlexibleBody::FlexibleBodyContinuum< AT >Flexible body entirely described within MBSim holding all informations about continuum approximations
|   |\CMBSimFlexibleBody::FlexibleBodyLinearExternalLinear models from external preprocessing, e.g. Finite Element model
|   \CMBSimFlexibleBody::FlexibleBodyFFRFlexible body using a floating frame of reference formulation
oCBodyFlexible1s
|\CMBSim::BodyFlexible1s01TorsionTorsional axis with polynomial ansatz of order $n$
oCContour2s
|\CMBSimFlexibleBody::Contour2sFlexibleNumerical description of contours with two contour parameter
oCMBSimFlexibleBody::DiscretizationInterfaceDiscretization interface for flexible systems
|oCMBSimFlexibleBody::FiniteElement1s21ANCFFinite element for planar beam using Absolute Nodal Coordinate Formulation (ANCF)
|oCMBSimFlexibleBody::FiniteElement1s21CosseratRotationFinite element for planar beam using Cosserat model : rotation element for bending and torsion
|oCMBSimFlexibleBody::FiniteElement1s21CosseratTranslationFinite translation element for planar beam using Cosserat model
|oCMBSimFlexibleBody::FiniteElement1s21RCMFinite element for planar beam using Redundant Coordinate Method (RCM)
|oCMBSimFlexibleBody::FiniteElement1s23BTAFinite element for bending torsional axis
|oCMBSimFlexibleBody::FiniteElement1s33ANCFFinite element for spatial beam using Absolute Nodal Coordinate Formulation (ANCF)
|oCMBSimFlexibleBody::FiniteElement1s33CosseratRotationFinite element for spatial beam using Cosserat model : rotation element for bending and torsion
|oCMBSimFlexibleBody::FiniteElement1s33CosseratTranslationFinite element for spatial beam using Cosserat model
|oCMBSimFlexibleBody::FiniteElement1s33RCMFinite element for spatial beam using Redundant Coordinate Method (RCM)
|oCMBSimFlexibleBody::FiniteElement2s13DiskFE for Reissner-Mindlin Plate using MFR
|oCMBSimFlexibleBody::FiniteElement2s13MFRMindlinFE for Reissner-Mindlin Plate using MFR
|oCMBSimFlexibleBody::FiniteElementLinearExternalLumpedNode
|oCMBSimFlexibleBody::FlexibleBody1SReferenceCurveFEFinite-Element class for the body FlexibleBody1SReferenceCurve
|\CMBSimFlexibleBody::SuperElementLinearExternalSuperelement for linear models from external preprocessing
oCMBSim::DistanceFunction< double(double)> [external]
|\CMBSimFlexibleBody::FuncPairCircleNurbsDisk2sRoot function for pairing Circle and NurbsDisk2s
oCMBSimFlexibleBody::NeutralNurbs1s
|oCMBSimFlexibleBody::NeutralNurbsAngle1s
|oCMBSimFlexibleBody::NeutralNurbsDotangle1s
|oCMBSimFlexibleBody::NeutralNurbsLocalPosition1s
|oCMBSimFlexibleBody::NeutralNurbsPosition1s
|\CMBSimFlexibleBody::NeutralNurbsVelocity1s
oCMBSimFlexibleBody::NeutralNurbs2s
|oCMBSimFlexibleBody::NeutralNurbsLocalPosition2s
|oCMBSimFlexibleBody::NeutralNurbsPosition2s
|\CMBSimFlexibleBody::NeutralNurbsVelocity2s
oCMBSim::OpenMBVBody [external]
|\CMBSimFlexibleBody::OpenMBVDynamicIndexedFaceSet
oCMBSimFlexibleBody::ReferenceCurveThis is a interface definition for possible implementations of the reference curve used in the FlexibleBody1SReferenceCurve
oCMBSimFlexibleBody::Trafo33RCMTransformation of coordinates for FiniteElement1s33RCM
\CMBSimFlexibleBody::Weight33RCMIntegrals of bending parametrisation for FiniteElement1s33RCM

Impressum / Disclaimer / Datenschutz Generated by doxygen 1.8.5 Valid HTML