/src/server/eye_motion_generator.cpp - humotion - Research for Cognitive Interaction

humotion / src / server / eye_motion_generator.cpp @ 87b50988

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       /*
       * This file is part of humotion
+      *
       * Copyright(c) sschulz <AT> techfak.uni-bielefeld.de
       * http://opensource.cit-ec.de/projects/humotion
+      *
       * This file may be licensed under the terms of the
       * GNU Lesser General Public License Version 3 (the ``LGPL''),
       * or (at your option) any later version.
+      *
       * Software distributed under the License is distributed
       * on an ``AS IS'' basis, WITHOUT WARRANTY OF ANY KIND, either
       * express or implied. See the LGPL for the specific language
       * governing rights and limitations.
+      *
       * You should have received a copy of the LGPL along with this
       * program. If not, go to http://www.gnu.org/licenses/lgpl.html
       * or write to the Free Software Foundation, Inc.,
       * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
+      *
       * The development of this software was supported by the
       * Excellence Cluster EXC 277 Cognitive Interaction Technology.
       * The Excellence Cluster EXC 277 is a grant of the Deutsche
       * Forschungsgemeinschaft (DFG) in the context of the German
       * Excellence Initiative.
       */
       #include "server/eye_motion_generator.h"
       #include "server/server.h"
       using namespace std;
       using namespace humotion;
       using namespace humotion::server;
       //saccade detection threshold in deg/s
       const float EyeMotionGenerator::SACCADE_SPEED_THRESHOLD = 15.0;
       //! constructor
       EyeMotionGenerator::EyeMotionGenerator(JointInterface *j) : GazeMotionGenerator(j, 3, 1.0/Server::MOTION_UPDATERATE){
+      }
       //! destructor
       EyeMotionGenerator::~EyeMotionGenerator(){
+      }
       //! set up an eyemotion profile
       //! this will use speed and acceleration calc formulas from literature:
       //! \param dof id of joint
       //! \param target angle
       //! \param current angle
       void EyeMotionGenerator::setup_eyemotion(int dof, float target,
                                                float current_position,
                                                float current_speed,
                                                humotion::Timestamp timestamp){
           //get distance to target:
           float distance_abs = fabs(target - current_position);
           //get max speed: factor can be found in encyc britannica: "linear.... being 300° per second for 10° and 500° per second for 30°" (max=700)
           float max_speed = fmin(700.0, 10.0*distance_abs + 200.0);
           //max accel: use data from ""Speed and Accuracy of Saccadic Eye Movements: Characteristics of Impulse Variability in the Oculomotor System"
           //                 http://www-personal.umich.edu/~kornblum/files/journal_exp_psych_HPP_15-3.pdf
           //           gathered from table2
           float max_accel = fmin(80000.0, 1526.53*distance_abs + 10245.4);
           //feed reflexxes api with data
           reflexxes_set_input(dof, target, current_position, current_speed, timestamp, max_speed, max_accel);
+      }
       //! calculate joint targets
       void EyeMotionGenerator::calculate_targets(){
           //use the target values for a faster response
           float neck_pan_now  = joint_interface->get_target_position(JointInterface::ID_NECK_PAN);
           float neck_tilt_now = joint_interface->get_target_position(JointInterface::ID_NECK_TILT);
           //calculate target angles for the eyes:
           //right eye is dominant -> direct output
           float eye_pan_r_target = (requested_gaze_state.pan + requested_gaze_state.vergence/2.0) - (neck_pan_now);
           //left eye is non dominant -> filtered output: TODO: activate low pass filtered output
           //FIXME: USE LOWPASS FILTER HERE --> output_angle[angle_names::EYE_PAN_L] + 0.1 * (eye_pan_l_target - output_angle[angle_names::EYE_PAN_L]) etc;
           float eye_pan_l_target = (requested_gaze_state.pan - requested_gaze_state.vergence/2.0) - (neck_pan_now);
           //tilt:
           float eye_tilt_target = requested_gaze_state.tilt - (neck_tilt_now);
           if (0){
               eye_pan_r_target = 0.0;
               eye_pan_l_target = 0.0;
               eye_tilt_target  = 0.0;
+          }
           //check and take care of limits
           eye_pan_l_target = limit_target(JointInterface::ID_EYES_LEFT_LR, eye_pan_l_target);
           eye_pan_r_target = limit_target(JointInterface::ID_EYES_RIGHT_LR, eye_pan_r_target);
           eye_tilt_target = limit_target(JointInterface::ID_EYES_BOTH_UD, eye_tilt_target);
           //fetch current dataset
           float eye_pan_l_now, eye_pan_r_now, eye_tilt_now;
           float eye_pan_l_speed, eye_pan_r_speed, eye_tilt_speed;
           humotion::Timestamp eye_pan_l_ts = get_timestamped_state(
                       JointInterface::ID_EYES_LEFT_LR,
                       &eye_pan_l_now,
                       &eye_pan_l_speed);
           humotion::Timestamp eye_pan_r_ts = get_timestamped_state(
                       JointInterface::ID_EYES_RIGHT_LR,
                       &eye_pan_r_now,
                       &eye_pan_r_speed);
           humotion::Timestamp eye_tilt_ts = get_timestamped_state(
                       JointInterface::ID_EYES_BOTH_UD,
                       &eye_tilt_now,
                       &eye_tilt_speed);
           //pass paramaters to reflexxes api:
           setup_eyemotion(0, eye_pan_l_target, eye_pan_l_now, eye_pan_l_speed, eye_pan_l_ts);
           setup_eyemotion(1, eye_pan_r_target, eye_pan_r_now, eye_pan_r_speed, eye_pan_r_ts);
           setup_eyemotion(2, eye_tilt_target, eye_tilt_now, eye_tilt_speed,    eye_tilt_ts);
           // cout << "EYE MOTION 2 " << eye_tilt_target << " now=" << eye_tilt_now << "\n";
           //call reflexxes to handle profile calculation:
           reflexxes_calculate_profile();
           //tell the joint about the new values:
           joint_interface->set_target_position(JointInterface::ID_EYES_LEFT_LR,
                                                reflexxes_position_output->NewPositionVector->VecData[0],
                                                reflexxes_position_output->NewVelocityVector->VecData[0]);
           joint_interface->set_target_position(JointInterface::ID_EYES_RIGHT_LR,
                                                reflexxes_position_output->NewPositionVector->VecData[1],
                                                reflexxes_position_output->NewVelocityVector->VecData[1]);
           joint_interface->set_target_position(JointInterface::ID_EYES_BOTH_UD,
                                                reflexxes_position_output->NewPositionVector->VecData[2],
                                                reflexxes_position_output->NewVelocityVector->VecData[2]);
           cout << reflexxes_position_output->NewPositionVector->VecData[2] << " " << reflexxes_position_output->NewVelocityVector->VecData[2] ;
+      }
       //! pubish the calculated targets to the joint subsystem
       void EyeMotionGenerator::publish_targets(){
           //publish values if there is an active gaze input within the last timerange
           if (gaze_target_input_active()){
               joint_interface->publish_target_position(JointInterface::ID_EYES_LEFT_LR);
               joint_interface->publish_target_position(JointInterface::ID_EYES_RIGHT_LR);
               joint_interface->publish_target_position(JointInterface::ID_EYES_BOTH_UD);
+          }
+      }