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Crocoddyl
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Crocoddyl
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Floating-base actuation model. More...
#include <floating-base.hpp>
Public Types | |
| typedef ActuationModelAbstractTpl< Scalar > | Base |
| typedef ActuationDataAbstractTpl< Scalar > | Data |
| typedef MathBaseTpl< Scalar > | MathBase |
| typedef MathBase::MatrixXs | MatrixXs |
| typedef StateMultibodyTpl< Scalar > | StateMultibody |
| typedef MathBase::VectorXs | VectorXs |
 Public Types inherited from ActuationModelAbstractTpl< _Scalar > | |
| typedef ActuationDataAbstractTpl< Scalar > | ActuationDataAbstract |
| typedef MathBaseTpl< Scalar > | MathBase |
| typedef MathBase::MatrixXs | MatrixXs |
| typedef StateAbstractTpl< Scalar > | StateAbstract |
| typedef MathBase::VectorXs | VectorXs |
Public Member Functions | |
| ActuationModelFloatingBaseTpl (std::shared_ptr< StateMultibody > state) | |
| Initialize the floating-base actuation model. | |
| virtual void | calc (const std::shared_ptr< Data > &data, const Eigen::Ref< const VectorXs > &, const Eigen::Ref< const VectorXs > &u) override |
| Compute the floating-base actuation signal from the joint-torque input \(\mathbf{u}\in\mathbb{R}^{nu}\). | |
| virtual void | calcDiff (const std::shared_ptr< Data > &data, const Eigen::Ref< const VectorXs > &, const Eigen::Ref< const VectorXs > &) override |
| Compute the Jacobians of the floating-base actuation function. | |
| template<typename NewScalar > | |
| ActuationModelFloatingBaseTpl< NewScalar > | cast () const |
| virtual void | commands (const std::shared_ptr< Data > &data, const Eigen::Ref< const VectorXs > &, const Eigen::Ref< const VectorXs > &tau) override |
| Compute the joint torque input from the generalized torques. | |
| virtual std::shared_ptr< Data > | createData () override |
| Create the floating-base actuation data. | |
| virtual void | print (std::ostream &os) const override |
| Print relevant information of the joint-effort residual. | |
| virtual void | torqueTransform (const std::shared_ptr< Data > &data, const Eigen::Ref< const VectorXs > &, const Eigen::Ref< const VectorXs > &) override |
| Compute the torque transform from generalized torques to joint torque inputs. | |
| Public Member Functions inherited from ActuationModelAbstractTpl< _Scalar > | |
| ActuationModelAbstractTpl (std::shared_ptr< StateAbstract > state, const std::size_t nu) | |
| Initialize the actuation model. | |
| void | calc (const std::shared_ptr< ActuationDataAbstract > &data, const Eigen::Ref< const VectorXs > &x) |
| Ignore the computation of the actuation signal. | |
| void | calcDiff (const std::shared_ptr< ActuationDataAbstract > &data, const Eigen::Ref< const VectorXs > &x) |
| Ignore the computation of the Jacobians of the actuation function. | |
| std::size_t | get_nu () const |
| Return the dimension of the joint-torque input. | |
| const std::shared_ptr< StateAbstract > & | get_state () const |
| Return the state. | |
Public Attributes | |
| EIGEN_MAKE_ALIGNED_OPERATOR_NEW typedef _Scalar | Scalar |
| Public Attributes inherited from ActuationModelAbstractTpl< _Scalar > | |
| EIGEN_MAKE_ALIGNED_OPERATOR_NEW typedef _Scalar | Scalar |
Protected Attributes | |
| std::size_t | nu_ |
| Dimension of joint torque inputs. | |
| std::shared_ptr< StateAbstract > | state_ |
| Model of the state. | |
| Protected Attributes inherited from ActuationModelAbstractTpl< _Scalar > | |
| std::size_t | nu_ |
| Dimension of joint torque inputs. | |
| std::shared_ptr< StateAbstract > | state_ |
| Model of the state. | |
Floating-base actuation model.
It considers the first joint, defined in the Pinocchio model, as the floating-base joints. Then, this joint (that might have various DoFs) is unactuated.
The main computations are carrying out in calc, and calcDiff, where the former computes actuation signal \(\mathbf{a}\) from a given joint-torque input \(\mathbf{u}\) and state point \(\mathbf{x}\), and the latter computes the Jacobians of the actuation-mapping function. Note that calcDiff requires to run calc first.
ActuationModelAbstractTpl, calc(), calcDiff(), createData() Definition at line 35 of file floating-base.hpp.
| typedef MathBaseTpl<Scalar> MathBase |
Definition at line 42 of file floating-base.hpp.
| typedef ActuationModelAbstractTpl<Scalar> Base |
Definition at line 43 of file floating-base.hpp.
| typedef ActuationDataAbstractTpl<Scalar> Data |
Definition at line 44 of file floating-base.hpp.
| typedef StateMultibodyTpl<Scalar> StateMultibody |
Definition at line 45 of file floating-base.hpp.
| typedef MathBase::VectorXs VectorXs |
Definition at line 46 of file floating-base.hpp.
| typedef MathBase::MatrixXs MatrixXs |
Definition at line 47 of file floating-base.hpp.
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inlineexplicit |
Initialize the floating-base actuation model.
| [in] | state | State of a multibody system |
| [in] | nu | Dimension of joint-torque vector |
Definition at line 55 of file floating-base.hpp.
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inlineoverridevirtual |
Compute the floating-base actuation signal from the joint-torque input \(\mathbf{u}\in\mathbb{R}^{nu}\).
| [in] | data | Actuation data |
| [in] | x | State point \(\mathbf{x}\in\mathbb{R}^{ndx}\) |
| [in] | u | Joint-torque input \(\mathbf{u}\in\mathbb{R}^{nu}\) |
Implements ActuationModelAbstractTpl< _Scalar >.
Definition at line 74 of file floating-base.hpp.
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inlineoverridevirtual |
Compute the Jacobians of the floating-base actuation function.
| [in] | data | Actuation data |
| [in] | x | State point \(\mathbf{x}\in\mathbb{R}^{ndx}\) |
| [in] | u | Joint-torque input \(\mathbf{u}\in\mathbb{R}^{nu}\) |
Implements ActuationModelAbstractTpl< _Scalar >.
Definition at line 93 of file floating-base.hpp.
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inlineoverridevirtual |
Compute the joint torque input from the generalized torques.
It stores the results in ActuationDataAbstractTpl::u.
| [in] | data | Actuation data |
| [in] | x | State point \(\mathbf{x}\in\mathbb{R}^{ndx}\) |
| [in] | tau | Generalized torques \(\mathbf{u}\in\mathbb{R}^{nv}\) |
Implements ActuationModelAbstractTpl< _Scalar >.
Definition at line 107 of file floating-base.hpp.
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inlineoverridevirtual |
Compute the torque transform from generalized torques to joint torque inputs.
It stores the results in ActuationDataAbstractTpl::Mtau.
| [in] | data | Actuation data |
| [in] | x | State point \(\mathbf{x}\in\mathbb{R}^{ndx}\) |
| [in] | tau | Joint-torque inputs \(\mathbf{u}\in\mathbb{R}^{nu}\) |
Reimplemented from ActuationModelAbstractTpl< _Scalar >.
Definition at line 119 of file floating-base.hpp.
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inlineoverridevirtual |
Create the floating-base actuation data.
Reimplemented from ActuationModelAbstractTpl< _Scalar >.
Definition at line 136 of file floating-base.hpp.
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inline |
Definition at line 160 of file floating-base.hpp.
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inlineoverridevirtual |
Print relevant information of the joint-effort residual.
| [out] | os | Output stream object |
Reimplemented from ActuationModelAbstractTpl< _Scalar >.
Definition at line 173 of file floating-base.hpp.
| EIGEN_MAKE_ALIGNED_OPERATOR_NEW typedef _Scalar Scalar |
Definition at line 41 of file floating-base.hpp.
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protected |
Dimension of joint torque inputs.
Definition at line 173 of file actuation-base.hpp.
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protected |
Model of the state.
Definition at line 174 of file actuation-base.hpp.
1.9.8