SCL  1.0
Standard Control Library : Control, dynamics, physics, and simulation
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scl::STaskOpPosNoGravity Class Reference

#include <STaskOpPosNoGravity.hpp>

Inheritance diagram for scl::STaskOpPosNoGravity:
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Collaboration diagram for scl::STaskOpPosNoGravity:
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Public Member Functions

 STaskOpPosNoGravity ()
virtual ~STaskOpPosNoGravity ()
virtual bool initTaskParams ()
bool init (const std::string &arg_name, const std::string &arg_type, const sUInt arg_priority, const scl::sUInt arg_task_dof, const SRobotParsed *arg_robot_ds, const SGcModel *arg_gc_model, const Eigen::VectorXd &arg_kp, const Eigen::VectorXd &arg_kv, const Eigen::VectorXd &arg_ka, const Eigen::VectorXd &arg_ki, const Eigen::VectorXd &arg_ftask_max, const Eigen::VectorXd &arg_ftask_min, const std::vector< scl::sString2 > &arg_nonstd_params)
bool setParentController (const SControllerMultiTask *arg_parent)
virtual const std::string & getType () const
virtual const std::string & getName () const
virtual bool hasBeenInit () const

Public Attributes

Eigen::VectorXd x_
Eigen::VectorXd dx_
Eigen::VectorXd ddx_
Eigen::VectorXd x_goal_
Eigen::VectorXd dx_goal_
Eigen::VectorXd ddx_goal_
Eigen::Vector3d pos_in_parent_
std::string link_name_
const SRigidBodylink_ds_
sFloat spatial_resolution_
const SRigidBodyDynrbd_
const SControllerMultiTaskparent_controller_
std::string type_task_
scl::sBool has_been_activated_
scl::sBool has_control_null_space_
sUInt priority_
scl::sUInt dof_task_
const SRobotParsedrobot_
const SGcModelgc_model_
Eigen::MatrixXd J_
Eigen::MatrixXd J_6_
Eigen::MatrixXd J_dyn_inv_
Eigen::MatrixXd null_space_
Eigen::MatrixXd M_task_
Eigen::MatrixXd M_task_inv_
Eigen::MatrixXd force_task_cc_
Eigen::MatrixXd force_task_grav_
Eigen::VectorXd force_task_
Eigen::VectorXd force_task_max_
Eigen::VectorXd force_task_min_
Eigen::VectorXd force_gc_
Eigen::MatrixXd range_space_
Eigen::VectorXd kp_
Eigen::VectorXd kv_
Eigen::VectorXd ka_
Eigen::VectorXd ki_
std::vector< sString2task_nonstd_params_
Eigen::VectorXd shared_data_
std::string name_
sBool has_been_init_

Protected Attributes

std::string type_

Detailed Description

This is identical to the STaskOpPos for now

Constructor & Destructor Documentation

scl::STaskOpPosNoGravity::STaskOpPosNoGravity ( )

Default constructor sets stuff to S_NULL

virtual scl::STaskOpPosNoGravity::~STaskOpPosNoGravity ( )

Default destructor does nothing

Member Function Documentation

virtual const std::string& scl::SObject::getName ( ) const

Get the object's type

virtual const std::string& scl::SObject::getType ( ) const

Get the object's type

virtual bool scl::SObject::hasBeenInit ( ) const

Get the object's type

bool scl::STaskBase::init ( const std::string &  arg_name,
const std::string &  arg_type,
const sUInt  arg_priority,
const scl::sUInt  arg_task_dof,
const SRobotParsed arg_robot_ds,
const SGcModel arg_gc_model,
const Eigen::VectorXd &  arg_kp,
const Eigen::VectorXd &  arg_kv,
const Eigen::VectorXd &  arg_ka,
const Eigen::VectorXd &  arg_ki,
const Eigen::VectorXd &  arg_ftask_max,
const Eigen::VectorXd &  arg_ftask_min,
const std::vector< scl::sString2 > &  arg_nonstd_params 

Initialization function

NOTE : This function also activates the task.

arg_task_dof0 task dof means a gc task. Ie. full dofs
arg_nonstd_paramsThese are ignored during STaskBase initialization. However, subclasses may choose to use them and/or require various values
bool scl::STaskOpPos::initTaskParams ( )
  1. Initializes the task specific data members.

Parses non standard task parameters, which are stored in STaskBase::task_nonstd_params_. Namely: (a) parent link name (b) pos in parent.

Extract the extra params

Implements scl::STaskBase.

bool scl::STaskBase::setParentController ( const SControllerMultiTask arg_parent)

Sets the parent controller

Member Data Documentation

scl::sUInt scl::STaskBase::dof_task_

Task space degrees of freedom

Eigen::VectorXd scl::STaskBase::force_gc_

Generalized coordinate forces (usually joint torques) : Computed by : the task-servo = J' * f Used by : the robot-servo to calculate overall generalized coordinate force

Eigen::VectorXd scl::STaskBase::force_task_

Task space forces Computed by : the task-servo Used by : the task-servo to compute the force_gc_

Eigen::MatrixXd scl::STaskBase::force_task_cc_

Task-space centrifugal/coriolis force vector Controls cc forces in a subspace of the entire gc space so that the operational point experience no cc forces. Other points, however, do.

Eigen::MatrixXd scl::STaskBase::force_task_grav_

Task-space gravity force vector. Controls gravity in a subspace of the entire gc space so that the operational point is massless. Other points experience gravity.

Eigen::VectorXd scl::STaskBase::force_task_max_

Upper and lower limits of task-space forces (Why separate : Consider muscles which can only pull, not push)

const SGcModel* scl::STaskBase::gc_model_

Robot generalized coordinate model

scl::sBool scl::STaskBase::has_been_activated_

Whether the task is active or inactive Default = false. True after init()

sBool scl::SObject::has_been_init_

Whether the object is ready for use

scl::sBool scl::STaskBase::has_control_null_space_

Is control task. This variable controls whether the controller computes remaining null spaces for lower level tasks or not. If it is true, the lower level task null spaces are not computed, potentially improving performance substantially.

Settings: True : Task dof < Robot dof [Default] False : Task dof == Robot dof [Must enable manually in init]

Eigen::MatrixXd scl::STaskBase::J_

The computed task space Jacobian matrices. Used for velocities. Note that we compute the generalized inverse (the Jacobian is usually not full rank) without inverting the jacobian itself.

Eigen::VectorXd scl::STaskBase::kp_

Gains (scalar if same for different dimensions; vector if different for different dimensions) kp = position, kv = velocity, ka = acceleration ki = integrated position error (to fix steady-state errors).

Computed by : None. These are constants. Used by : The task-servo to calculate task forces

Eigen::MatrixXd scl::STaskBase::M_task_

Task-space mass matrix

std::string scl::SObject::name_

The object's name

Eigen::MatrixXd scl::STaskBase::null_space_

The task's null space. Used to compute the range space of lower priority tasks.

const SControllerMultiTask* scl::STaskBase::parent_controller_

The parent controller

sUInt scl::STaskBase::priority_

The task's priority. Important to determine its range space. Lower is better. 0 is best. -1 is NULL.

Eigen::MatrixXd scl::STaskBase::range_space_

Range space of the task : Computed by : the robot-servo to calculate overall generalized coordinate force Used by : the robot-servo to calculate overall generalized coordinate force

const SRobotParsed* scl::STaskBase::robot_

Robot model. Not a const because it could use the branching representation's iterator

Eigen::VectorXd scl::STaskBase::shared_data_

This may be used by any shared module in scl that wants to communicate arbitrary information to a STaskBase subclass

std::vector<sString2> scl::STaskBase::task_nonstd_params_

A set of additional options that may be used by users to initialize this specific task. These typically go above and beyond the standard options.

Eg.The parent link and the pos in parent, which are required by op point tasks but not by gc tasks. These will be stored like: task_options_[0].data_[0] = "parent_link"; task_options_[0].data_[1] = "base"; task_options_[1].data_[0] = "pos_in_parent"; task_options_[1].data_[1] = "0.0 0.0 0.0"; task_options_[2].data_[0] = "my_new_arbitrary_option"; task_options_[2].data_[1] = "8080";

std::string scl::SObject::type_

The object's type. Should only be set by the constructor

std::string scl::STaskBase::type_task_

The type of the task

The documentation for this class was generated from the following file: