OpenSim::AbstractProperty | An abstract property is a serializable (name,value) pair, for which we do not know the type of the value |
OpenSim::Property< T > | A Property<T> is a serializable (name, list-of-values) pair, where each value is of type T |
OpenSim::Property_Deprecated | |
OpenSim::PropertyBool | |
OpenSim::PropertyBoolArray | Class PropertyBoolArray extends class Property |
OpenSim::PropertyDbl | |
OpenSim::PropertyDblArray | |
OpenSim::PropertyTransform | |
OpenSim::PropertyDblVec_< M > | |
OpenSim::PropertyInt | |
OpenSim::PropertyIntArray | |
OpenSim::PropertyObj | |
OpenSim::PropertyObjArray< T > | |
OpenSim::PropertyObjPtr< T > | |
OpenSim::PropertyStr | |
OpenSim::PropertyStrArray | |
OpenSim::PropertyObjArray< Analysis > | |
OpenSim::PropertyObjArray< Bhargava2004MuscleMetabolicsProbe_MetabolicMuscleParameter > | |
OpenSim::PropertyObjArray< Body > | |
OpenSim::PropertyObjArray< BodyScale > | |
OpenSim::PropertyObjArray< Constraint > | |
OpenSim::PropertyObjArray< ContactGeometry > | |
OpenSim::PropertyObjArray< Control > | |
OpenSim::PropertyObjArray< Controller > | |
OpenSim::PropertyObjArray< Coordinate > | |
OpenSim::PropertyObjArray< DisplayGeometry > | |
OpenSim::PropertyObjArray< ExternalForce > | |
OpenSim::PropertyObjArray< Force > | |
OpenSim::PropertyObjArray< Function > | |
OpenSim::PropertyObjArray< IKTask > | |
OpenSim::PropertyObjArray< Joint > | |
OpenSim::PropertyObjArray< Marker > | |
OpenSim::PropertyObjArray< MarkerPair > | |
OpenSim::PropertyObjArray< Measurement > | |
OpenSim::PropertyObjArray< ModelComponent > | |
OpenSim::PropertyObjArray< ObjectGroup > | |
OpenSim::PropertyObjArray< PathPoint > | |
OpenSim::PropertyObjArray< Probe > | |
OpenSim::PropertyObjArray< Scale > | |
OpenSim::PropertyObjArray< TrackingTask > | |
OpenSim::PropertyObjArray< Umberger2010MuscleMetabolicsProbe_MetabolicMuscleParameter > | |
OpenSim::Array< T > | |
SimTK::DefaultGeometry | |
OpenSim::Exception | |
OpenSim::InterruptedException | |
OpenSim::Muscle::FiberVelocityInfo | FiberVelocityInfo contains velocity quantities related to the velocity of the muscle (fiber + tendon) complex |
OpenSim::ForceAdapter | This acts as an adapter to allow a Force or Actuator to be used as a SimTK::Force |
OpenSim::FunctionScaler | This is a SimTK::Function that multiplies the value of another function by a constant |
OpenSim::Geometry | Class Geometry is intended to be used as the base class for all geometry that needs to be represented in the system, both as vtk files, or analytic |
OpenSim::AnalyticGeometry | Utility class used to abstract anayltic geometry |
OpenSim::AnalyticCylinder | |
OpenSim::AnalyticEllipsoid | |
OpenSim::AnalyticSphere | |
OpenSim::AnalyticTorus | |
OpenSim::LineGeometry | |
OpenSim::ArrowGeometry | |
OpenSim::PolyhedralGeometry | |
OpenSim::IO | A class for performing input and output with OpenSim API |
OpenSim::Manager | A class that manages the execution of a simulation |
OpenSim::ModelDisplayHints | This class captures information indicating user or programmer preferences to guide automatic display geometry generation by a Model |
OpenSim::ModelVisualizer | This class manages runtime visualization of a Model that is being manipulated through the OpenSim API |
OpenSim::Muscle::MuscleDynamicsInfo | MuscleDynamicsInfo contains quantities that are related to the forces that the muscle generates |
OpenSim::Muscle::MuscleLengthInfo | The MuscleLengthInfo struct contains information about the muscle that is strictly a function of the length of the fiber and the tendon, and the orientation of the muscle fiber |
OpenSim::Muscle::MusclePotentialEnergyInfo | MusclePotentialEnergyInfo contains quantities related to the potential energy of the muscle (fiber + tendon) complex |
OpenSim::Object | This is the base class for all OpenSim objects that are serializable (meaning they can be written to and read back from files) |
OpenSim::AbstractTool | An abstract class for specifying the interface for an investigation |
OpenSim::AnalyzeTool | An abstract class for specifying the interface for an investigation |
OpenSim::CMCTool | An abstract class for specifying the interface for an investigation |
OpenSim::ForwardTool | A concrete tool for perfroming forward dynamics simulations |
OpenSim::RRATool | An abstract class for specifying the interface for an investigation |
OpenSim::Analysis | An abstract class for specifying the interface for an analysis plugin |
OpenSim::Actuation | A class for recording the basic actuator information for a model during a simulation |
OpenSim::BodyKinematics | A class for recording the kinematics of the bodies of a model during a simulation |
OpenSim::ForceReporter | A class for recording the Forces applied to a model during a simulation |
OpenSim::InducedAccelerations | A class to perform an Induced Accelerations analysis using a constraint- method of replacing external (contact) forces in order to determine the contributions of actuators to external reaction forces and thus model accelerations including that of the center-of-mass |
OpenSim::JointReaction | An analysis for reporting the joint reaction loads from a model |
OpenSim::Kinematics | A class for recording the kinematics of the generalized coordinates of a model during a simulation |
OpenSim::MuscleAnalysis | A class for recording and computting basic quantities (length, shortening velocity, tendon length, ...) for muscles during a simulation |
OpenSim::PointKinematics | A class for recording the kinematics of a point on a body of a model during a simulation |
OpenSim::ProbeReporter | A class for reporting the outputs of all model-connected Probes to file during a simulation |
OpenSim::StatesReporter | A class for recording the states of a model during a simulation |
OpenSim::StaticOptimization | This class implements static optimization to compute Muscle Forces and activations |
OpenSim::Bhargava2004MuscleMetabolicsProbe_MetabolicMuscleParameter | |
OpenSim::BodyScale | A class implementing a set of parameters describing how to scale a body segment |
OpenSim::Condition | A parent class for implementing an OpenSim Condition |
OpenSim::FunctionThresholdCondition | FunctionThresholdCondition is a concrete implementation of a Condition |
OpenSim::Control | |
OpenSim::ControlConstant | |
OpenSim::ControlLinear | |
OpenSim::ControlLinearNode | |
OpenSim::DisplayGeometry | A class for representing the DisplayGeometry properties of an object |
OpenSim::Function | |
OpenSim::ActiveForceLengthCurve | This class serves as a serializable ActiveForceLengthCurve, commonly used to model the active element in muscle models |
OpenSim::Constant | A class for representing a constant value |
OpenSim::FiberCompressiveForceCosPennationCurve | This class serves as a serializable FiberCompressiveForceCosPennationCurve, which is used to ensure that the pennation angle approaches but never reaches an angle of 90 degrees |
OpenSim::FiberCompressiveForceLengthCurve | This class serves as a serializable FiberCompressiveForceLengthCurve, which is used to ensure that the fiber cannot generate force at, nor shorten beyond a minimum normalized length |
OpenSim::FiberForceLengthCurve | This class serves as a serializable FiberForceLengthCurve, commonly used to model the parallel elastic element in muscle models |
OpenSim::ForceVelocityCurve | This class serves as a serializable ForceVelocityCurve for use in muscle models |
OpenSim::ForceVelocityInverseCurve | This class serves as a serializable ForceVelocityInverseCurve for use in equilibrium muscle models |
OpenSim::GCVSpline | |
OpenSim::LinearFunction | A class for representing a LinearFunction |
OpenSim::MultiplierFunction | |
OpenSim::PiecewiseConstantFunction | |
OpenSim::PiecewiseLinearFunction | |
OpenSim::SimmSpline | |
OpenSim::Sine | A class for representing a Sine function |
OpenSim::StepFunction | A class for representing a StepFunction |
OpenSim::TendonForceLengthCurve | This class serves as a serializable TendonForceLengthCurve for use in muscle models |
OpenSim::GenericModelMaker | A class implementing a set of parameters describing a generic musculoskeletal model |
OpenSim::IKTask | |
OpenSim::IKCoordinateTask | |
OpenSim::IKMarkerTask | |
OpenSim::Marker | A class implementing a SIMM [mocap] marker |
OpenSim::MarkerData | A class implementing a sequence of marker frames from a TRC/TRB file |
OpenSim::MarkerFrame | A class implementing a frame of marker data from a TRC/TRB file |
OpenSim::MarkerPair | |
OpenSim::MarkerPlacer | A class implementing a set of parameters describing how to place markers on a model (presumably after it has been scaled to fit a subject) |
OpenSim::MarkerWeight | |
OpenSim::Measurement | A class implementing a measurement (the distance between one or more pairs of markers, used to scale a model) |
OpenSim::ModelComponent | This defines the abstract ModelComponent class, which is used to add computational components to the underlying SimTK::System (MultibodySystem) |
OpenSim::Body | A class implementing a Simbody rigid body |
OpenSim::Constraint | A parent class for implementing a Simbody Constraint |
OpenSim::ConstantDistanceConstraint | A class implementing a constraint that maintains a constant distance between between two points |
OpenSim::CoordinateCouplerConstraint | |
OpenSim::PointConstraint | A class implementing a Point Constraint |
OpenSim::PointOnLineConstraint | A class implementing a Point On Line Constraint |
OpenSim::UnilateralConstraint | An abstract class defining an OpenSim UnilateralConstraint |
OpenSim::RollingOnSurfaceConstraint | A class implementing a collection of rolling-without-slipping and non-penetration constraints on a surface |
OpenSim::WeldConstraint | A class implementing a Weld Constraint |
OpenSim::ContactGeometry | This class represents the physical shape of an object for use in contact modeling |
OpenSim::ContactHalfSpace | This class represents a half space (that is, everything to one side of an infinite plane) for use in contact modeling |
OpenSim::ContactMesh | This class represents a polygonal mesh for use in contact modeling |
OpenSim::ContactSphere | This class represents a spherical object for use in contact modeling |
OpenSim::Controller | Controller is an abstract ModelComponent that defines the interface for an OpenSim Controller |
OpenSim::ControlSetController | |
OpenSim::PrescribedController | PrescribedController is a concrete Controller that specifies functions that prescribe the control values of its actuators as a function of time |
OpenSim::ToyReflexController | ToyReflexController is a concrete controller that excites muscles in response to muscle lengthening to simulate a simple stretch reflex |
OpenSim::TrackingController | |
OpenSim::CMC | Computed Muscle Control (CMC) is an optimization-based control technique designed specifically for controlling dynamic models that are actuated by redundant sets of actuators whose force-generating properties may be nonlinear and goverened by differential equaitions (as so have delays in force production) |
OpenSim::CorrectionController | This is a simple feedback controller to be used in generating a forward dynamic simulation |
OpenSim::Coordinate | A Coordinate is a ModelComponent for managing the access and behavior of a model's generalized coordinate including its value, speed and acceleration (once system accelerations have been realized) |
OpenSim::Force | This abstract class represents a force applied to bodies or generalized coordinates during a simulation |
OpenSim::Actuator_ | Base class for an actuator (e.g., a torque motor, muscle, ...) that requires external input (controls) to generate force |
OpenSim::Actuator | Derived class for an actuator (e.g., a torque motor, muscle, ...) that requires exactly one external input (control) to generate a scalar value force, such as a torque/force magnitude or a tension |
OpenSim::CoordinateActuator | An actuator that applies a generalized force to along a generalized a generalized coordinate, which is proportional to its input control |
OpenSim::PathActuator | This is the base class for actuators that apply controllable tension along a geometry path |
OpenSim::ClutchedPathSpring | The ClutchedPathSpring is an actuator that has passive path spring behavior only when the clutch is engaged |
OpenSim::Muscle | A base class for modeling a muscle-tendon actuator |
OpenSim::ActivationFiberLengthMuscle | A base class representing a two-state muscle-tendon actuator |
OpenSim::Thelen2003Muscle | Implementation of a two state (activation and fiber-length) Muscle model by Thelen 2003. This a complete rewrite of a previous implementation (present in OpenSim 2.4 and earlier) contained numerous errors |
OpenSim::ActivationFiberLengthMuscle_Deprecated | A base class representing a muscle-tendon actuator |
OpenSim::ContDerivMuscle_Deprecated | A class implementing a SIMM muscle |
OpenSim::Delp1990Muscle_Deprecated | A class implementing a SIMM muscle |
OpenSim::Schutte1993Muscle_Deprecated | A class implementing a SIMM muscle |
OpenSim::Thelen2003Muscle_Deprecated | A class implementing a SIMM muscle |
OpenSim::Millard2012AccelerationMuscle | This class implements a 3 state (activation,fiber length and fiber velocity) acceleration musculo-tendon model that has several advantages over equilibrium musculo-tendon models: it is possible to simulate 0 activation, it requires fewer integrator steps to simulate, and physiological active force-length (with a minimum value of 0) and force velocity (with true asymptotes at the maximum shortening and lengthening velocites) curves can be employed |
OpenSim::Millard2012EquilibriumMuscle | This class implements a configurable equilibrium muscle model, as described in Millard et al. (2013) |
OpenSim::RigidTendonMuscle | A class implementing a RigidTendonMuscle actuator with no states |
OpenSim::PointActuator | A class that implements a point actuator acting on the model |
OpenSim::PointToPointActuator | A class that implements a force actuator acting between two points on two bodies |
OpenSim::TorqueActuator | A class that implements a torque actuator acting on a body |
OpenSim::BushingForce | A class implementing a Bushing Force |
OpenSim::CoordinateLimitForce | |
OpenSim::ElasticFoundationForce | This Force subclass implements an elastic foundation contact model |
OpenSim::ExpressionBasedBushingForce | A class implementing a bushing force driven by expressions relating forces to deviations |
OpenSim::ExpressionBasedPointToPointForce | |
OpenSim::ExternalForce | This applies a force and/or torque to a body according describe by arrays contained in a Storage The source of the Storage may be experimental sensor recording or user generated data |
OpenSim::FunctionBasedBushingForce | A class implementing a bushing force driven by functions relating forces to deviations |
OpenSim::HuntCrossleyForce | This force subclass implements a Hunt-Crossley contact model |
OpenSim::Ligament | A class implementing a ligament |
OpenSim::PathSpring | A class implementing a PathSpring |
OpenSim::PointToPointSpring | |
OpenSim::PrescribedForce | This applies to a body a force and/or torque that is fully specified as a function of time |
OpenSim::SpringGeneralizedForce | |
OpenSim::GeometryPath | A base class representing a path (muscle, ligament, etc.) |
OpenSim::Joint | A class implementing an OpenSim Joint |
OpenSim::BallJoint | A class implementing an Ball joint |
OpenSim::CustomJoint | A class implementing a custom joint |
OpenSim::EllipsoidJoint | A class implementing an Ellipsoid joint |
OpenSim::FreeJoint | A class implementing a Free joint |
OpenSim::GimbalJoint | A class implementing an Gimbal joint |
OpenSim::PinJoint | A class implementing an Pin joint |
OpenSim::PlanarJoint | A PlanarJoint provides three DoFs: rotation about the the common Z of the parent and child joint frames, X and Y translation in the parent body's joint frame |
OpenSim::SliderJoint | A class implementing an Slider joint |
OpenSim::UniversalJoint | A class implementing a Universal joint |
OpenSim::WeldJoint | A class implementing an Weld joint |
OpenSim::Model | A concrete class that specifies the interface to a musculoskeletal model |
OpenSim::Probe | This class represents a Probe which is designed to query a Vector of model values given system state |
OpenSim::ActuatorForceProbe | ActuatorForceProbe is a ModelComponent Probe for computing an operation on a force or sum of forces in the model during a simulation |
OpenSim::ActuatorPowerProbe | ActuatorPowerProbe is a ModelComponent Probe for computing an operation on a actuator power or sum of actuator powers in the model during a simulation |
OpenSim::Bhargava2004MuscleMetabolicsProbe | Bhargava2004MuscleMetabolicsProbe is a Probe ModelComponent for computing the net metabolic energy rate of a set of Muscles in the model during a simulation |
OpenSim::JointInternalPowerProbe | JointInternalPowerProbe is a ModelComponent Probe for computing an operation on internal joint power or sum of joint powers in the model during a simulation |
OpenSim::MuscleActiveFiberPowerProbe | MuscleActiveFiberPowerProbe is a ModelComponent probe for computing an operation on the active fiber power of a muscle |
OpenSim::SystemEnergyProbe | SystemEnergyProbe is a ModelComponent Probe for computing an operation on a total system energy during a simulation |
OpenSim::Umberger2010MuscleMetabolicsProbe | Umberger2010MuscleMetabolicsProbe is a Probe ModelComponent for computing the net metabolic energy rate of a set of Muscles in the model during a simulation |
OpenSim::ModelScaler | A class for scaling a model |
OpenSim::MuscleFirstOrderActivationDynamicModel | This is a muscle modeling utility class that computes the time derivative of activation using a first-order dynamic model |
OpenSim::MuscleFixedWidthPennationModel | This is a muscle modeling utility class containing kinematic equations that describe the deformation of muscle fibers as they change length using a fixed-width-parallelogram pennation model |
OpenSim::MuscleSecondOrderActivationDynamicModel | This function is a muscle modeling utility class that simulates dynamics of muscle force development as a function of input excitation |
OpenSim::ObjectGroup | A class implementing an object group |
OpenSim::PathPoint | A class implementing a path point |
OpenSim::ConditionalPathPoint | A class implementing a conditional path point, which is a point that is active only for a specified range of a coordinate |
OpenSim::MovingPathPoint | A class implementing a moving muscle point, which is a muscle point that moves in a body's reference frame as a function of a coordinate |
OpenSim::Reference_< T > | This base (abstract) class defines the interface for objects repsonsible in identifying a model output and its Reference value to be achieved via optimization and/or tracking |
OpenSim::Scale | |
OpenSim::ScaleTool | A class implementing a set of parameters describing how to scale a model to fit a subject, place markers on it, and do IK on one or more motion trials |
OpenSim::Set< T > | A class for holding a set of pointers to objects |
OpenSim::ModelComponentSet< T > | This is the base class for sets of ModelComponent subclasses |
OpenSim::SimbodyEngine | A wrapper class to use the SimTK Simbody dynamics engine as the underlying engine for OpenSim |
OpenSim::Solver | The base (abstract) class for a family of objects repsonsible for solving system equations (statics, dynamic, kinematics, muscle, etc...) given by a model for values of interest |
OpenSim::AssemblySolver | Solve for the coordinates (degrees-of-freedom) of the model that satisfy the set of constraints imposed on the model as well as set of desired coordinate values |
OpenSim::InverseKinematicsSolver | Solve for the coordinates (degrees-of-freedom) of the model that satisfy the set of constraints imposed on the model as well as set of desired coordinate values |
OpenSim::InverseDynamicsSolver | Solve for the generalized coordinate coordinate forces (1 per degree-of-freedom) that satisfy the unconstrained equations of motion given kinemtics: q, u, u_dot |
OpenSim::MomentArmSolver | Solve for the effective moment arms at all degrees-of-freedom due to one or more point forces |
OpenSim::SpatialTransform | A class encapsulating the spatial transformation bewteen two bodies that defines the behaviour of a custom joint |
OpenSim::StorageInterface | |
OpenSim::Storage | |
OpenSim::Tool | A Tool is an OpenSim abstraction that encapsulates an analysis or series of modeling and analysis steps |
OpenSim::DynamicsTool | An abstract Tool for defining tools for perfroming a dynamics analysis with a given model |
OpenSim::InverseDynamicsTool | A Tool that performs an Inverse Dynamics analysis with a given model |
OpenSim::InverseKinematicsTool | A Tool that performs an Inverse Kinematics analysis with a given model |
OpenSim::TrackingTask | An abstract base class for specifying a target for a tracking problem |
OpenSim::CMC_Task | An abstract base class for specifying a task objective for a dynamic simulation |
OpenSim::CMC_Joint | A class for specifying the tracking task for a joint |
OpenSim::SMC_Joint | A class for specifying the tracking task for a joint |
OpenSim::CMC_Orientation | A class for tracking the orientation of a body |
OpenSim::CMC_Point | A class for specifying and computing parameters for tracking a point |
OpenSim::StateTrackingTask | A target for a tracking problem that corresponds to a state variable |
OpenSim::MuscleStateTrackingTask | A TrackingTask for that corresponds to a muscle state variable |
OpenSim::TransformAxis | A class expressing a transformation of a child body in relation to a parent body along either a translation or rotation axis |
OpenSim::Umberger2010MuscleMetabolicsProbe_MetabolicMuscleParameter | |
OpenSim::VectorFunction | |
OpenSim::VectorFunctionUncoupledNxN | |
OpenSim::VectorFunctionForActuators | |
OpenSim::VisibleObject | Class VisibleObject is intended to be used as the base class for all Visible objects that subclass Object |
OpenSim::Reference_< double > | |
OpenSim::CoordinateReference | Reference value to be achieved for a specified coordinate that will be used via optimization and/or tracking |
OpenSim::Reference_< SimTK::Vec3 > | |
OpenSim::MarkersReference | |
OpenSim::Set< Analysis > | |
OpenSim::AnalysisSet | |
OpenSim::Set< Bhargava2004MuscleMetabolicsProbe_MetabolicMuscleParameter > | |
OpenSim::Bhargava2004MuscleMetabolicsProbe_MetabolicMuscleParameterSet | MetabolicMuscleParameterSet is a class that holds the set of MetabolicMuscleParameters for each muscle |
OpenSim::Set< Body > | |
OpenSim::ModelComponentSet< Body > | |
OpenSim::BodySet | A class for holding a set of bodies |
OpenSim::Set< BodyScale > | |
OpenSim::BodyScaleSet | A class for holding a set of body scales |
OpenSim::Set< Constraint > | |
OpenSim::ModelComponentSet< Constraint > | |
OpenSim::ConstraintSet | A class for holding a set of constraints |
OpenSim::Set< ContactGeometry > | |
OpenSim::ModelComponentSet< ContactGeometry > | |
OpenSim::ContactGeometrySet | A class for holding a set of ContactGeometry objects |
OpenSim::Set< Control > | |
OpenSim::ControlSet | |
OpenSim::Set< Controller > | |
OpenSim::ModelComponentSet< Controller > | |
OpenSim::ControllerSet | A class for holding and managing a set of controllers for a model |
OpenSim::Set< Coordinate > | |
OpenSim::ModelComponentSet< Coordinate > | |
OpenSim::CoordinateSet | A class for holding a set of coordinates |
OpenSim::Set< DisplayGeometry > | |
OpenSim::GeometrySet | |
OpenSim::Set< ExternalForce > | |
OpenSim::ModelComponentSet< ExternalForce > | |
OpenSim::ExternalLoads | A convenience class for managing ExternaForce(s) to be applied to a model |
OpenSim::Set< Force > | |
OpenSim::ModelComponentSet< Force > | |
OpenSim::ForceSet | A class for holding and managing a set of forces for a model |
OpenSim::Set< Function > | |
OpenSim::FunctionSet | |
OpenSim::GCVSplineSet | |
OpenSim::Set< IKTask > | |
OpenSim::IKTaskSet | |
OpenSim::Set< Joint > | |
OpenSim::ModelComponentSet< Joint > | |
OpenSim::JointSet | A class for holding a set of joints |
OpenSim::Set< Marker > | |
OpenSim::MarkerSet | A class for holding a set of markers for inverse kinematics |
OpenSim::Set< MarkerPair > | |
OpenSim::MarkerPairSet | A class for holding a set of SimmMarkerPairs |
OpenSim::Set< Measurement > | |
OpenSim::MeasurementSet | A class for holding a set of measurements |
OpenSim::Set< ModelComponent > | |
OpenSim::ModelComponentSet< ModelComponent > | |
OpenSim::ComponentSet | A class for holding a set of miscellaneous model components |
OpenSim::Set< PathPoint > | |
OpenSim::PathPointSet | A class for holding a set of muscle points |
OpenSim::Set< Probe > | |
OpenSim::ModelComponentSet< Probe > | |
OpenSim::ProbeSet | A class for holding a set of probes |
OpenSim::Set< Scale > | |
OpenSim::ScaleSet | |
OpenSim::Set< TrackingTask > | |
OpenSim::CMC_TaskSet | An class for holding and managing a set of tasks |
OpenSim::Set< Umberger2010MuscleMetabolicsProbe_MetabolicMuscleParameter > | |
OpenSim::Umberger2010MuscleMetabolicsProbe_MetabolicMuscleParameterSet | MetabolicMuscleParameterSet is an internal container class containing the set of MetabolicMuscleParameters for each muscle that is probed |
OpenSim::OptimizationTarget | This class provides an interface specification for optimizing redundant systems |
OpenSim::ActuatorForceTarget | A Computed Muscle Control (CMC) optimization target for controlling dynamic systems whose actuators may be themselves governed by differential equations, meaning there may be non-linear behavior and delays in force production |
OpenSim::ActuatorForceTargetFast | A Computed Muscle Control (CMC) optimization target for controlling dynamic systems whose actuators may be themselves governed by differential equations, meaning there may be non-linear behavior and delays in force production |
osimInstantiator | |
OpenSim::PointForceDirection | Convenience class for a generic representation of geometery of a complex Force (or any other object) with multiple points of contact through which forces are applied to bodies |
OpenSim::MuscleAnalysis::private | |
OpenSim::PropertyGroup | A class implementing a property group |
OpenSim::PropertySet | A property set is simply a set of properties |
OpenSim::PropertyTable | A property table is the container that an OpenSim Object uses to hold its properties (each derived from base class AbstractProperty) |
OpenSim::RootSolver | A class for finding the N roots of N one-dimensional non-linear equations |
OpenSim::SegmentedQuinticBezierToolkit | This is a low level Quintic Bezier curve class that contains functions to design continuous sets of 'C' shaped Bezier curves, and to evaluate their values and derivatives |
OpenSim::Signal | A class for signal processing |
OpenSim::SmoothSegmentedFunction | This class contains the quintic Bezier curves, x(u) and y(u), that have been created by SmoothSegmentedFunctionFactory to follow a physiologically meaningful muscle characteristic |
OpenSim::SmoothSegmentedFunctionFactory | This is a class that acts as a user friendly wrapper to QuinticBezerCurveSet to build specific kinds of physiologically plausible muscle curves using C2 continuous sets of quintic Bezier curves |
OpenSim::StateVector | A class which stores a vector of states or data at a specified time |
OpenSim::StaticOptimizationTarget | This class provides an interface specification for static optimization Objective Function |
OpenSim::StorageCreator | |
OpenSim::StorageFactory | |
OpenSim::Property< T >::TypeHelper | This is the generic definition of Property::TypeHelper to be used whenever T does not have a specialization, meaning that T must be a type derived from class Object |
OpenSim::Units | A class implementing various units for measuring quantities |
OpenSim::XMLDocument | |