Difference between revisions of "CeRVaNTeS' Teleoperation with xbox360 wireless controller (xbox360 controller+joy)"

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(Program)
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==Program==
 
==Program==
  
 +
The program assigns the function to the buttons and axes. The program subscribes to the ''topic'' "joy" where is published the state of the buttons and axes and publishes the ''topics'' "Base_Control" and "Group_Motor_Control" for the control of the base and the [[CeRVaNTeS' arm control (maxon+epos2)|arm]]. We have to execute the next command in a terminal in order to create a new ''package'' named "cervantes_teleop" within our catkin workspace:
  
 +
<syntaxhighlight>roscreate-pkg myrabot_teleop brazo_fer geometry_msgs sensor_msgs std_msgs ros_cpp</syntaxhighlight>
 +
 +
We will create a new file named "teleop_xbox360.cpp" within the folder "src" of the created ''package'' with the content that is shown below:
  
 
<syntaxhighlight lang=cpp enclose=div>
 
<syntaxhighlight lang=cpp enclose=div>

Revision as of 16:09, 25 September 2014

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CeRVaNTeS' arm control (maxon+epos2)
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CeRVaNTeS model for simulation (urdf+gazebo)
Integration of CeRVaNTeS in moveIt! (gazebo+moveIt!)

MYRAbot's arm control (bioloid+arduino)
Objects recognition and position calculation (webcam)
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MYRAbot model for simulation (urdf+gazebo)
Integration of MYRAbot in moveIt! (gazebo+moveIt!)
Voice control (sphinx+festival)
MYRAbot's Teleoperation with xbox360 wireless controller (xbox360 controller+joy)



Teleoperation of CeRVaNTeS

We need a teleoperation system in order to take the control of the robot to make specific tasks. Currently we use the ssh connection between the robot PC and our PC, using the keyboard. This method use a wifi network that can fail or not available. For this reason the best option is to use a device plugged in to the PC robot with its own network. The well-chosen device is the xbox360 wireless controller of microsoft.

xbox360 controller

Description of buttons and axes

This controller has 6 axes and 14 buttons that are distributed like is shown below:

  • Left pad: 2 axes and 1 button.
  • Right pad: 2 axes and 1 button.
  • Left trigger: 1 axe.
  • Right trigger: 1 axe.
  • Cross: 4 buttons.
  • Left side buttons: 4 buttons.
  • Left button: 1 button.
  • Right button: 1 button.
  • "Back" button: 1 button.
  • "Start" button: 1 button.

The function assigned to the buttons and axes of the xbox360 controller for teleoperation of CeRVaNTeS is shown in the next picture:

Funcionalidad xbox360 controller for CeRVaNTeS.

Program

The program assigns the function to the buttons and axes. The program subscribes to the topic "joy" where is published the state of the buttons and axes and publishes the topics "Base_Control" and "Group_Motor_Control" for the control of the base and the arm. We have to execute the next command in a terminal in order to create a new package named "cervantes_teleop" within our catkin workspace:

roscreate-pkg myrabot_teleop brazo_fer geometry_msgs sensor_msgs std_msgs ros_cpp

We will create a new file named "teleop_xbox360.cpp" within the folder "src" of the created package with the content that is shown below:

  #include "ros/ros.h"  
  #include <cervantes_epos_manager/GroupEPOSControl.h>
  #include <cervantes_epos_manager/EPOSControl.h>
  #include <cervantes_epos_manager/GroupMotorInfo.h>
  #include <cervantes_epos_manager/MotorInfo.h>
  #include "geometry_msgs/Point.h"
  #include "geometry_msgs/Pose.h"
  #include <tf/transform_listener.h>
  #include <tf_conversions/tf_eigen.h>
  #include "geometry_msgs/Twist.h"
  #include "geometry_msgs/Point.h"
  #include "sensor_msgs/JointState.h"    
  #include "sensor_msgs/Joy.h"
  #include "math.h"
  
  // MoveIt!
  #include <moveit/robot_model_loader/robot_model_loader.h>
  #include <moveit/robot_model/robot_model.h>
  #include <moveit/robot_state/robot_state.h>

  #define PI 3.14159265

double avance = 0.005, giro = 0.05;
double avance_base = 0.05, giro_base = 0.1;
int start = 0;
int flanco = 0;

geometry_msgs::Twist base;

double pad_izquierda_x, pad_izquierda_y, gatillo_izquierda, pad_derecha_x, pad_derecha_y, gatillo_derecha;
int boton_a, boton_b, boton_izquierda, boton_x, boton_y, boton_derecha, boton_back, boton_start, boton_pad_izquierda, boton_pad_derecha, cruz_izquierda, cruz_derecha, cruz_arriba, cruz_abajo;
	 
 
  void xbox(const sensor_msgs::Joy& xbox_joystick)   
  {	
	
	::pad_izquierda_x = xbox_joystick.axes[0];
	::pad_izquierda_y = xbox_joystick.axes[1];
	::gatillo_izquierda = xbox_joystick.axes[2] -1;
	::pad_derecha_x = xbox_joystick.axes[3];
	::pad_derecha_y = xbox_joystick.axes[4];
	::gatillo_derecha = xbox_joystick.axes[5] -1;
	
	::boton_a = xbox_joystick.buttons[0];
	::boton_b = xbox_joystick.buttons[1];
	::boton_x = xbox_joystick.buttons[2];
	::boton_y = xbox_joystick.buttons[3];
	::boton_izquierda = xbox_joystick.buttons[4];
	::boton_derecha = xbox_joystick.buttons[5];
	::boton_back = xbox_joystick.buttons[6];
	::boton_start = xbox_joystick.buttons[7];
	::boton_pad_izquierda = xbox_joystick.buttons[9];
	::boton_pad_derecha = xbox_joystick.buttons[10];	
	::cruz_izquierda = xbox_joystick.buttons[11];
	::cruz_derecha = xbox_joystick.buttons[12];
	::cruz_arriba = xbox_joystick.buttons[13];
	::cruz_abajo = xbox_joystick.buttons[14];	
  }
 
  int main(int argc, char **argv)
  {
 
	ros::init(argc, argv, "teleoperador_xbox360");   
 
	ros::NodeHandle n;  
  	
  	ros::Subscriber joystick_sub_= n.subscribe("joy", 1, xbox); 
  	
  	
	ros::Publisher move_pub_=n.advertise<cervantes_epos_manager::GroupEPOSControl>("Group_Motor_Control", 1);   
	
	ros::Publisher base_pub_=n.advertise<geometry_msgs::Twist>("Base_Control", 1); 
	
	
	robot_model_loader::RobotModelLoader robot_model_loader("robot_description");
	robot_model::RobotModelPtr kinematic_model = robot_model_loader.getModel();

	robot_state::RobotStatePtr kinematic_state(new robot_state::RobotState(kinematic_model));

	const robot_state::JointModelGroup* joint_model_group = kinematic_model->getJointModelGroup("brazo");
	
	std::vector<double> joint_values;
	
	std::vector<std::string> joint_names;
	
	joint_names = joint_model_group->getJointModelNames();
	
	Eigen::Affine3d end_effector_state, end_effector_state_i;
	
	int cont = 0;
		
        ros::Rate loop_rate(5);	
	
	while (ros::ok())
	{
	
		end_effector_state = kinematic_state->getGlobalLinkTransform("muneca_c_link");
		
		if (cont == 0)
		{			
			end_effector_state_i = end_effector_state;
			
			cont = 1;
		}
		else
		{
			if (::boton_start != 0 && ::flanco == 0)
			{
				flanco = 1;
			}
			else 
			{
				if (::boton_start != 0)
				{
					::flanco = 2;
				}
				else
				{
					::flanco = 0;
				}
			}
			
		
			if (::boton_start != 0 && ::flanco == 1)
			{
				if (::start == 0)
				{
					::start = 1;
				}
				else
				{
					::start = 0;
				}
			}
			
			if (::start == 1)
			{

				if (::pad_derecha_x > 0.2 || ::pad_derecha_x < -0.2 || pad_derecha_y > 0.2 || pad_derecha_y < -0.2 ||
					(::gatillo_izquierda < -0.2 && ::gatillo_izquierda != -1) || 
					(::gatillo_derecha < -0.2 && ::gatillo_derecha != -1) || 
					::cruz_izquierda !=  0 || ::cruz_derecha !=  0 || ::cruz_arriba != 0 || ::cruz_abajo != 0 || 
					::boton_back != 0 || 
					::boton_izquierda != 0 || ::boton_derecha != 0)
				{
				
					if (::boton_back != 0)
					{
						end_effector_state = end_effector_state_i;
					}

					if (::pad_derecha_x > 0.2 || ::pad_derecha_x < -0.2)
					{
						end_effector_state.translate(Eigen::Vector3d(0, 0, ::pad_derecha_x * avance));
					}
		
					if (::pad_derecha_y > 0.2 || ::pad_derecha_y < -0.2)
					{
						end_effector_state.translate(Eigen::Vector3d(0, -::pad_derecha_y * avance, 0));
					}
					
					if (::gatillo_izquierda < -0.2 && ::gatillo_izquierda != -1)
					{
						end_effector_state.translate(Eigen::Vector3d(::gatillo_izquierda * (avance/2), 0, 0));
					}
					
					if (::gatillo_derecha < -0.2 && ::gatillo_derecha != -1)
					{
						end_effector_state.translate(Eigen::Vector3d(-::gatillo_derecha * (avance/2), 0, 0));
					} 
					
					
					if (::cruz_arriba !=  0)
					{					
						end_effector_state.rotate(Eigen::AngleAxisd(-giro, Eigen::Vector3d::UnitZ()));
					}
					
					if (::cruz_abajo !=  0)
					{
						end_effector_state.rotate(Eigen::AngleAxisd(giro, Eigen::Vector3d::UnitZ()));
					}
					
					if (::cruz_derecha !=  0)
					{
						end_effector_state.rotate(Eigen::AngleAxisd(giro, Eigen::Vector3d::UnitY()));
					}
					
					if (::cruz_izquierda !=  0)
					{
						end_effector_state.rotate(Eigen::AngleAxisd(-giro, Eigen::Vector3d::UnitY()));
					}
					
					if (::boton_derecha != 0)
					{
						end_effector_state.rotate(Eigen::AngleAxisd(giro, Eigen::Vector3d::UnitX()));
					}
					
					if (::boton_izquierda != 0)
					{   	  
						end_effector_state.rotate(Eigen::AngleAxisd(-giro, Eigen::Vector3d::UnitX()));
					}


					bool found_ik = kinematic_state->setFromIK(joint_model_group, end_effector_state, 5, 0.1);
		
					if (found_ik)
					{
						cervantes_epos_manager::GroupEPOSControl arm;
						std::vector<cervantes_epos_manager::EPOSControl> motor_group;
						cervantes_epos_manager::EPOSControl motor_control;	
						kinematic_state->copyJointGroupPositions(joint_model_group, joint_values);
						
						for(int i = 0; i < joint_names.size(); i++)
						{
							if (joint_names[i] == "hombro_a")
							{
								motor_control.node_id = 3;
								motor_control.setpoint = (joint_values[i]/(2*PI))*(246*1024);
							}
							else if (joint_names[i] == "hombro_b")
							{
								motor_control.node_id = 5;
								motor_control.setpoint = (joint_values[i]/(2*PI))*(246*1024);
							}
							else if (joint_names[i] == "codo_a")
							{
								motor_control.node_id = 4;
								motor_control.setpoint = (joint_values[i]/(2*PI))*(246*1024);
							}
							else if (joint_names[i] == "codo_b")
							{
								motor_control.node_id = 6;
								motor_control.setpoint = (joint_values[i]/(2*PI))*(246*1024);
							}
							else if (joint_names[i] == "muneca_a")
							{
								motor_control.node_id = 7;
								motor_control.setpoint = (joint_values[i]/(2*PI))*(270*1024);
							}
							else if (joint_names[i] == "muneca_b")
							{
								motor_control.node_id = 9;
								motor_control.setpoint = (joint_values[i]/(2*PI))*(270*16);
							}
							else if (joint_names[i] == "muneca_c")
							{
								motor_control.node_id = 8;
								motor_control.setpoint = (joint_values[i]/(2*PI))*(270*16);
							}
							
							motor_control.control_mode = 3;
							motor_group.push_back(motor_control);
				
						}
						
						arm.motor_group = motor_group;
						
						move_pub_.publish(arm);
						
					}
					else
					{
						ROS_INFO("Did not find IK solution");
					}
					
				}
				else
				{
					if (::boton_a != 0)
					{
						::avance_base = ::avance_base - 0.01;
						
						if (::avance_base < 0.01)
						{
							::avance_base = 0.01;
						}
					}
					
					if (::boton_b != 0)
					{
						::avance_base = ::avance_base + 0.1;
						
						if (::avance_base > 0.1)
						{
							::avance_base = 0.1;
						}
					}
					
					if (::pad_izquierda_y > 0.2 || ::pad_izquierda_y < -0.2)
					{
						::base.linear.x = ::avance_base * ::pad_izquierda_y;
						base_pub_.publish(::base);
					}
					else
					{
						::base.linear.x = 0.0;
						base_pub_.publish(::base);
					}
					
					if (::boton_x != 0)
					{
						::giro_base = ::giro_base - 0.01;
						
						if (::giro_base < 0.05)
						{
							::giro_base = 0.05;
						}
					}
					
					if (::boton_y != 0)
					{
						::giro_base = ::giro_base + 0.01;
						
						if (::giro_base > 1)
						{
							::giro_base = 1;
						}
					}
					
					if (::pad_izquierda_x > 0.2 || ::pad_izquierda_x < -0.2)
					{
						::base.angular.z = ::giro_base * ::pad_izquierda_x;
						base_pub_.publish(::base);
					}
					else
					{
						::base.angular.z = 0.0;
						base_pub_.publish(::base);
					}
				}
			}
		}
		
		ros::spinOnce();
	
		loop_rate.sleep();
	}		  
 
        return 0;
  }
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