00001
00027 #include "sr_mechanism_controllers/srh_joint_velocity_controller.hpp"
00028 #include "angles/angles.h"
00029 #include "pluginlib/class_list_macros.h"
00030 #include <sstream>
00031 #include <math.h>
00032 #include "sr_utilities/sr_math_utils.hpp"
00033
00034 #include <std_msgs/Float64.h>
00035
00036 PLUGINLIB_DECLARE_CLASS(sr_mechanism_controllers, SrhJointVelocityController, controller::SrhJointVelocityController, pr2_controller_interface::Controller)
00037
00038 using namespace std;
00039
00040 namespace controller {
00041
00042 SrhJointVelocityController::SrhJointVelocityController()
00043 : SrController(), velocity_deadband(0.015)
00044 {
00045 }
00046
00047 SrhJointVelocityController::~SrhJointVelocityController()
00048 {
00049 sub_command_.shutdown();
00050 }
00051
00052 bool SrhJointVelocityController::init(pr2_mechanism_model::RobotState *robot, const std::string &joint_name,
00053 boost::shared_ptr<control_toolbox::Pid> pid_velocity)
00054 {
00055 ROS_DEBUG(" --------- ");
00056 ROS_DEBUG_STREAM("Init: " << joint_name);
00057
00058 assert(robot);
00059 robot_ = robot;
00060 last_time_ = robot->getTime();
00061
00062 if( joint_name.substr(3,1).compare("0") == 0)
00063 {
00064 has_j2 = true;
00065 std::string j1 = joint_name.substr(0,3) + "1";
00066 std::string j2 = joint_name.substr(0,3) + "2";
00067 ROS_DEBUG_STREAM("Joint 0: " << j1 << " " << j2);
00068
00069 joint_state_ = robot_->getJointState(j1);
00070 if (!joint_state_)
00071 {
00072 ROS_ERROR("SrhVelocityController could not find joint named \"%s\"\n",
00073 j1.c_str());
00074 return false;
00075 }
00076
00077 joint_state_2 = robot_->getJointState(j2);
00078 if (!joint_state_2)
00079 {
00080 ROS_ERROR("SrhVelocityController could not find joint named \"%s\"\n",
00081 j2.c_str());
00082 return false;
00083 }
00084 if (!joint_state_2->calibrated_)
00085 {
00086 ROS_ERROR("Joint %s not calibrated for SrhVelocityJointController", j2.c_str());
00087 return false;
00088 }
00089 }
00090 else
00091 {
00092 has_j2 = false;
00093 joint_state_ = robot_->getJointState(joint_name);
00094 if (!joint_state_)
00095 {
00096 ROS_ERROR("SrhVelocityController could not find joint named \"%s\"\n",
00097 joint_name.c_str());
00098 return false;
00099 }
00100 if (!joint_state_->calibrated_)
00101 {
00102 ROS_ERROR("Joint %s not calibrated for SrhJointVelocityController", joint_name.c_str());
00103 return false;
00104 }
00105 }
00106
00107 friction_compensator = boost::shared_ptr<sr_friction_compensation::SrFrictionCompensator>(new sr_friction_compensation::SrFrictionCompensator(joint_name));
00108
00109 pid_controller_velocity_ = pid_velocity;
00110
00111 serve_set_gains_ = node_.advertiseService("set_gains", &SrhJointVelocityController::setGains, this);
00112 serve_reset_gains_ = node_.advertiseService("reset_gains", &SrhJointVelocityController::resetGains, this);
00113
00114 after_init();
00115 return true;
00116 }
00117
00118 bool SrhJointVelocityController::init(pr2_mechanism_model::RobotState *robot, ros::NodeHandle &n)
00119 {
00120 assert(robot);
00121 node_ = n;
00122
00123 std::string joint_name;
00124 if (!node_.getParam("joint", joint_name)) {
00125 ROS_ERROR("No joint given (namespace: %s)", node_.getNamespace().c_str());
00126 return false;
00127 }
00128
00129 boost::shared_ptr<control_toolbox::Pid> pid_velocity = boost::shared_ptr<control_toolbox::Pid>( new control_toolbox::Pid() );;
00130 if (!pid_velocity->init(ros::NodeHandle(node_, "pid")))
00131 return false;
00132
00133
00134 controller_state_publisher_.reset(
00135 new realtime_tools::RealtimePublisher<pr2_controllers_msgs::JointControllerState>
00136 (node_, "state", 1));
00137
00138 return init(robot, joint_name, pid_velocity);
00139 }
00140
00141
00142 void SrhJointVelocityController::starting()
00143 {
00144 if( has_j2 )
00145 command_ = (joint_state_->velocity_ + joint_state_2->velocity_) / 2.0;
00146 else
00147 command_ = joint_state_->velocity_;
00148 pid_controller_velocity_->reset();
00149 read_parameters();
00150
00151 ROS_WARN("Reseting PID");
00152 }
00153
00154 bool SrhJointVelocityController::setGains(sr_robot_msgs::SetPidGains::Request &req,
00155 sr_robot_msgs::SetPidGains::Response &resp)
00156 {
00157 pid_controller_velocity_->setGains(req.p,req.i,req.d,req.i_clamp,-req.i_clamp);
00158 max_force_demand = req.max_force;
00159 friction_deadband = req.friction_deadband;
00160 velocity_deadband = req.deadband;
00161
00162
00163 node_.setParam("pid/p", req.p);
00164 node_.setParam("pid/i", req.i);
00165 node_.setParam("pid/d", req.d);
00166 node_.setParam("pid/i_clamp", req.i_clamp);
00167
00168 node_.setParam("pid/max_force", max_force_demand);
00169 node_.setParam("pid/velocity_deadband", velocity_deadband);
00170 node_.setParam("pid/friction_deadband", friction_deadband);
00171
00172 return true;
00173 }
00174
00175 bool SrhJointVelocityController::resetGains(std_srvs::Empty::Request& req, std_srvs::Empty::Response& resp)
00176 {
00177 if( has_j2 )
00178 command_ = (joint_state_->velocity_ + joint_state_2->velocity_) / 2.0;
00179 else
00180 command_ = joint_state_->velocity_;
00181
00182 if (!pid_controller_velocity_->init(ros::NodeHandle(node_, "velocity_pid")))
00183 return false;
00184
00185 read_parameters();
00186
00187 if( has_j2 )
00188 ROS_WARN_STREAM("Reseting controller gains: " << joint_state_->joint_->name << " and " << joint_state_2->joint_->name);
00189 else
00190 ROS_WARN_STREAM("Reseting controller gains: " << joint_state_->joint_->name);
00191
00192 return true;
00193 }
00194
00195 void SrhJointVelocityController::getGains(double &p, double &i, double &d, double &i_max, double &i_min)
00196 {
00197 pid_controller_velocity_->getGains(p,i,d,i_max,i_min);
00198 }
00199
00200 void SrhJointVelocityController::update()
00201 {
00202 if( !has_j2 )
00203 {
00204 if (!joint_state_->calibrated_)
00205 return;
00206 }
00207
00208 assert(robot_ != NULL);
00209 ros::Time time = robot_->getTime();
00210 assert(joint_state_->joint_);
00211 dt_= time - last_time_;
00212
00213 if (!initialized_)
00214 {
00215 initialized_ = true;
00216 if( has_j2 )
00217 command_ = (joint_state_->velocity_ + joint_state_2->velocity_) / 2.0;
00218 else
00219 command_ = joint_state_->velocity_;
00220 }
00221
00222
00223 double error_velocity = 0.0;
00224 if( has_j2 )
00225 error_velocity = (joint_state_->velocity_ + joint_state_2->velocity_)/2.0 - command_;
00226 else
00227 error_velocity = joint_state_->velocity_ - command_;
00228
00229 double commanded_effort = 0.0;
00230
00231
00232 if( !hysteresis_deadband.is_in_deadband(command_, error_velocity, velocity_deadband) )
00233 {
00234 commanded_effort = pid_controller_velocity_->updatePid(error_velocity, dt_);
00235
00236
00237 commanded_effort = min( commanded_effort, (max_force_demand * max_force_factor_) );
00238 commanded_effort = max( commanded_effort, -(max_force_demand * max_force_factor_) );
00239
00240 if( has_j2 )
00241 commanded_effort += friction_compensator->friction_compensation( (joint_state_->position_ + joint_state_2->position_) ,(joint_state_->velocity_ + joint_state_2->velocity_), int(commanded_effort), friction_deadband );
00242 else
00243 commanded_effort += friction_compensator->friction_compensation( joint_state_->position_, joint_state_->velocity_, int(commanded_effort), friction_deadband );
00244 }
00245 if( has_j2 )
00246 joint_state_2->commanded_effort_ = commanded_effort;
00247 else
00248 joint_state_->commanded_effort_ = commanded_effort;
00249
00250 if(loop_count_ % 10 == 0)
00251 {
00252 if(controller_state_publisher_ && controller_state_publisher_->trylock())
00253 {
00254 controller_state_publisher_->msg_.header.stamp = time;
00255 controller_state_publisher_->msg_.set_point = command_;
00256 if( has_j2 )
00257 controller_state_publisher_->msg_.process_value = ( joint_state_->velocity_ + joint_state_2->velocity_) / 2.0;
00258 else
00259 controller_state_publisher_->msg_.process_value = joint_state_->velocity_;
00260 controller_state_publisher_->msg_.error = error_velocity;
00261 controller_state_publisher_->msg_.time_step = dt_.toSec();
00262 controller_state_publisher_->msg_.command = commanded_effort;
00263
00264 double dummy;
00265 getGains(controller_state_publisher_->msg_.p,
00266 controller_state_publisher_->msg_.i,
00267 controller_state_publisher_->msg_.d,
00268 controller_state_publisher_->msg_.i_clamp,
00269 dummy);
00270 controller_state_publisher_->unlockAndPublish();
00271 }
00272 }
00273 loop_count_++;
00274
00275 last_time_ = time;
00276 }
00277
00278 void SrhJointVelocityController::read_parameters()
00279 {
00280 node_.param<double>("pid/max_force", max_force_demand, 1023.0);
00281 node_.param<double>("pid/velocity_deadband", velocity_deadband, 0.015);
00282 node_.param<int>("pid/friction_deadband", friction_deadband, 5);
00283 }
00284 }
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