hovering_eval.py
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00001 #!/usr/bin/env python
00002 # This is needed such that int / int gives a float instead of an int
00003 from __future__ import division
00004 
00005 import roslib
00006 roslib.load_manifest('rotors_evaluation')
00007 
00008 from rosbag_tools import analyze_bag, helpers
00009 
00010 
00011 __author__ = "Fadri Furrer, Michael Burri, Markus Achtelik"
00012 __copyright__ = ("Copyright 2015, Fadri Furrer & Michael Burri & "
00013                  "Markus Achtelik, ASL, ETH Zurich, Switzerland")
00014 __credits__ = ["Fadri Furrer", "Michael Burri", "Markus Achtelik"]
00015 __license__ = "ASL 2.0"
00016 __version__ = "0.1"
00017 __maintainer__ = "Fadri Furrer"
00018 __email__ = "fadri.furrer@mavt.ethz.ch"
00019 __status__ = "Development"
00020 
00021 
00022 def main():
00023     [ab, plot, begin_time, total_end_time, rms_calc_time, settling_radius,
00024      min_settled_time, first_waypoint_evaluation_delay] = helpers.initialize()
00025 
00026     position_error_max = 0.2  # [m]
00027     angular_velocity_error_max = 0.2  # [rad/s]
00028 
00029     # Get the begin and end times, and the set point from the waypoints.
00030     waypoints = ab.waypoint[0]
00031     bag_time_start = ab.bag_time_start.to_sec()
00032     bag_time_end = ab.bag_time_end.to_sec()
00033 
00034     settling_time = None
00035     print("\n")
00036     [begin_time, end_time] = helpers.get_evaluation_period(
00037         waypoints, 0, bag_time_start, bag_time_end, total_end_time)
00038     print("[Waypoint %d]: [%.3f, %.3f, %.3f, %.3f] at time %.3f s" % (
00039         0, waypoints.x[0], waypoints.y[0], waypoints.z[0],
00040         waypoints.yaw[0], begin_time))
00041 
00042     set_point_pos = analyze_bag.create_set_point(
00043         waypoints.x[0], waypoints.y[0], waypoints.z[0])
00044     set_point_pqr = analyze_bag.create_set_point(0, 0, 0)
00045 
00046     begin_time += first_waypoint_evaluation_delay
00047     print("Setting the evaluation start time %f s after the "
00048           "waypoint was published."
00049           % first_waypoint_evaluation_delay)
00050 
00051     rms_evaluation_start_time = begin_time
00052     rms_evaluation_end_time = min(begin_time + rms_calc_time, end_time)
00053     # Get the position RMS errors.
00054     rms_positions = ab.pos[0].slice(rms_evaluation_start_time,
00055                                     rms_evaluation_end_time)
00056     pos_rms_error = helpers.get_rms_position_error(
00057         rms_positions, set_point_pos, 0, print_output=False)
00058 
00059     # Get the angular velocity RMS errors.
00060     angular_velocities = ab.pqr[0].slice(rms_evaluation_start_time,
00061                                          rms_evaluation_end_time)
00062     pqr_rms_error = helpers.get_rms_angular_velocity_error(
00063         angular_velocities, set_point_pqr, 0, print_output=False)
00064 
00065     # Plot pose msg content if there are any pose topics.
00066     if plot and len(ab.pose_topics) > 0:
00067         x_range = [begin_time - 2, rms_evaluation_end_time + 2]
00068         # ab.plot_3d_trajectories()
00069         helpers.plot_positions(
00070             ab, begin_time, rms_evaluation_end_time, settling_time,
00071             settling_radius, set_point_pos, x_range, str(0))
00072         helpers.plot_angular_velocities(
00073             ab, begin_time, rms_evaluation_end_time, settling_time,
00074             x_range, str(0))
00075 
00076     start_collision_time = (waypoints.bag_time[0].to_sec() +
00077                             first_waypoint_evaluation_delay)
00078     if (helpers.no_collisions_occured(ab, start_collision_time,
00079                                       rms_evaluation_end_time)):
00080         print("\n")
00081         helpers.print_scoring(pos_rms_error, position_error_max,
00082                               "position RMS error", "m", [0.0, 1.5, 3.5, 5.0])
00083         helpers.print_scoring(pqr_rms_error, angular_velocity_error_max,
00084                               "angular velocity RMS error", "rad/s",
00085                               [0.0, 1.0, 2.0, 3.0])
00086 
00087 
00088 if __name__ == "__main__":
00089     main()


rotors_evaluation
Author(s): Fadri Furrer, Michael Burri, Mina Kamel, Janosch Nikolic, Markus Achtelik
autogenerated on Thu Apr 18 2019 02:43:40