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generic_control_toolbox repository

Repository Summary

Checkout URI https://github.com/diogoalmeida/generic_control_toolbox.git
VCS Type git
VCS Version master
Last Updated 2021-04-27
Dev Status MAINTAINED
CI status No Continuous Integration
Released UNRELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Packages

Name Version
generic_control_toolbox 0.1.0

README

Generic control toolbox Build Status

This ROS package defines libraries that are generic to the control algorithms used in my research, in an attempt to maximize code re-usability.

ROS-wiki page

Tutorials

Dependencies

This is a ROS package and relies on a ROS instalation. Assuming the “full” version of your ROS distro, this package depends on the package realtime_tools:

  $ sudo apt-get install ros-<distro>-realtime-tools

where you should replace <distro> with the ROS distribution name (e.g., indigo).

Tested in ROS indigo and kinetic.

Implementing a controller

To implement a controller you inherit from the ControllerTemplate class and implement the pure virtual methods. This will enhance your controller with an actionlib interface.

Example

Create a package named my_controller, which should define an actionlib action file (Example.action) as in the actionlib tutorial. In the class definition file, you should have something like

// Other includes
#include <my_controller/ExampleAction.h>
#include <generic_control_toolbox/controller_template.hpp>

class MyController : public generic_control_toolbox::ControllerTemplate<ExampleAction,
                                                                        ExampleGoal,
                                                                        ExampleFeedback,
                                                                        ExampleResult>
{
public:
  MyController(const std::string &action_name);

  // destructor, other public methods/members

private:
  sensor_msgs::JointState controlAlgorithm(const sensor_msgs::JointState &current_state, const ros::Duration &dt);
  bool parseGoal(boost::shared_ptr<const ExampleGoal> goal);
  bool init();
  void resetController();

  // other public methods/members
};

The action_name element of the constructor must be passed to the ControllerTemplate constructor to initialize the actiolib server. An example of an implemented controller using this template can be found in the sarafun_folding_assembly folding controller definition.

CONTRIBUTING

No CONTRIBUTING.md found.

Repository Summary

Checkout URI https://github.com/diogoalmeida/generic_control_toolbox.git
VCS Type git
VCS Version master
Last Updated 2021-04-27
Dev Status MAINTAINED
CI status No Continuous Integration
Released UNRELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Packages

Name Version
generic_control_toolbox 0.1.0

README

Generic control toolbox Build Status

This ROS package defines libraries that are generic to the control algorithms used in my research, in an attempt to maximize code re-usability.

ROS-wiki page

Tutorials

Dependencies

This is a ROS package and relies on a ROS instalation. Assuming the “full” version of your ROS distro, this package depends on the package realtime_tools:

  $ sudo apt-get install ros-<distro>-realtime-tools

where you should replace <distro> with the ROS distribution name (e.g., indigo).

Tested in ROS indigo and kinetic.

Implementing a controller

To implement a controller you inherit from the ControllerTemplate class and implement the pure virtual methods. This will enhance your controller with an actionlib interface.

Example

Create a package named my_controller, which should define an actionlib action file (Example.action) as in the actionlib tutorial. In the class definition file, you should have something like

// Other includes
#include <my_controller/ExampleAction.h>
#include <generic_control_toolbox/controller_template.hpp>

class MyController : public generic_control_toolbox::ControllerTemplate<ExampleAction,
                                                                        ExampleGoal,
                                                                        ExampleFeedback,
                                                                        ExampleResult>
{
public:
  MyController(const std::string &action_name);

  // destructor, other public methods/members

private:
  sensor_msgs::JointState controlAlgorithm(const sensor_msgs::JointState &current_state, const ros::Duration &dt);
  bool parseGoal(boost::shared_ptr<const ExampleGoal> goal);
  bool init();
  void resetController();

  // other public methods/members
};

The action_name element of the constructor must be passed to the ControllerTemplate constructor to initialize the actiolib server. An example of an implemented controller using this template can be found in the sarafun_folding_assembly folding controller definition.

CONTRIBUTING

No CONTRIBUTING.md found.

Repository Summary

Checkout URI https://github.com/diogoalmeida/generic_control_toolbox.git
VCS Type git
VCS Version master
Last Updated 2021-04-27
Dev Status MAINTAINED
CI status No Continuous Integration
Released UNRELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Packages

Name Version
generic_control_toolbox 0.1.0

README

Generic control toolbox Build Status

This ROS package defines libraries that are generic to the control algorithms used in my research, in an attempt to maximize code re-usability.

ROS-wiki page

Tutorials

Dependencies

This is a ROS package and relies on a ROS instalation. Assuming the “full” version of your ROS distro, this package depends on the package realtime_tools:

  $ sudo apt-get install ros-<distro>-realtime-tools

where you should replace <distro> with the ROS distribution name (e.g., indigo).

Tested in ROS indigo and kinetic.

Implementing a controller

To implement a controller you inherit from the ControllerTemplate class and implement the pure virtual methods. This will enhance your controller with an actionlib interface.

Example

Create a package named my_controller, which should define an actionlib action file (Example.action) as in the actionlib tutorial. In the class definition file, you should have something like

// Other includes
#include <my_controller/ExampleAction.h>
#include <generic_control_toolbox/controller_template.hpp>

class MyController : public generic_control_toolbox::ControllerTemplate<ExampleAction,
                                                                        ExampleGoal,
                                                                        ExampleFeedback,
                                                                        ExampleResult>
{
public:
  MyController(const std::string &action_name);

  // destructor, other public methods/members

private:
  sensor_msgs::JointState controlAlgorithm(const sensor_msgs::JointState &current_state, const ros::Duration &dt);
  bool parseGoal(boost::shared_ptr<const ExampleGoal> goal);
  bool init();
  void resetController();

  // other public methods/members
};

The action_name element of the constructor must be passed to the ControllerTemplate constructor to initialize the actiolib server. An example of an implemented controller using this template can be found in the sarafun_folding_assembly folding controller definition.

CONTRIBUTING

No CONTRIBUTING.md found.

Repository Summary

Checkout URI https://github.com/diogoalmeida/generic_control_toolbox.git
VCS Type git
VCS Version master
Last Updated 2021-04-27
Dev Status MAINTAINED
CI status No Continuous Integration
Released UNRELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Packages

Name Version
generic_control_toolbox 0.1.0

README

Generic control toolbox Build Status

This ROS package defines libraries that are generic to the control algorithms used in my research, in an attempt to maximize code re-usability.

ROS-wiki page

Tutorials

Dependencies

This is a ROS package and relies on a ROS instalation. Assuming the “full” version of your ROS distro, this package depends on the package realtime_tools:

  $ sudo apt-get install ros-<distro>-realtime-tools

where you should replace <distro> with the ROS distribution name (e.g., indigo).

Tested in ROS indigo and kinetic.

Implementing a controller

To implement a controller you inherit from the ControllerTemplate class and implement the pure virtual methods. This will enhance your controller with an actionlib interface.

Example

Create a package named my_controller, which should define an actionlib action file (Example.action) as in the actionlib tutorial. In the class definition file, you should have something like

// Other includes
#include <my_controller/ExampleAction.h>
#include <generic_control_toolbox/controller_template.hpp>

class MyController : public generic_control_toolbox::ControllerTemplate<ExampleAction,
                                                                        ExampleGoal,
                                                                        ExampleFeedback,
                                                                        ExampleResult>
{
public:
  MyController(const std::string &action_name);

  // destructor, other public methods/members

private:
  sensor_msgs::JointState controlAlgorithm(const sensor_msgs::JointState &current_state, const ros::Duration &dt);
  bool parseGoal(boost::shared_ptr<const ExampleGoal> goal);
  bool init();
  void resetController();

  // other public methods/members
};

The action_name element of the constructor must be passed to the ControllerTemplate constructor to initialize the actiolib server. An example of an implemented controller using this template can be found in the sarafun_folding_assembly folding controller definition.

CONTRIBUTING

No CONTRIBUTING.md found.