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[gazebo] Cyberzoo model (#2230)

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* First steps towards detailed cyberzoo model. Got transparency working.

* Fix ambient lighting of cyberzoo_solid

* Import improved model

* Fix optitrack cameras

* Fix lighting colors

* Fix optitrack camera color

* Add orange pole and traffic mat objects

* Fix orange_pole2 smoothing errors

* Fix cyberzoo origin

* Add first draft of cyberzoo surroundings

* Add updated cyberzoo surroundings and outside walls

* Minor fixes to surroundings

* Create cyberzoo world

To-do: set origin coordinates and rotate environment

* Set world coordinates and rotation, fix naming conflict

* Add cyberzoo world with orange poles for orange_avoider

* Remove old cyberzoo model, fix dependencies

* Add daylight in windows on outer walls

* Separate cyberzoo model into layers

Makes it easier to hide parts of the model in the GUI.

* Add cyberzoo surroundings to main model in separate layers

* Restore cyberzoo floor collision box

* Add cyberzoo props

* Minor tweaks to models

* Compress textures

Reduced texture dimensions. Size of model folder is now approx.
20 MB instead of 60+ MB.

* Remove origin marker from worlds

* Move CyberZoo models to submodule

- All new models are moved to the tudelft/gazebo_models repository, which is included as a submodule in sw/ext/tudelft_gazebo_models/
- Changed vehicle and world SDF loading to use URI's, these can be used with multiple search paths
- Added gzclient_launcher.sh script that sets up environment variables before launching gzclient. This prevents errors if the user forgets to add the paths to .bashrc. Added as a tool to control_panel_example.xml
This commit is contained in:
Tom van Dijk
2018-05-30 15:32:10 +02:00
committed by OpenUAS
parent 801a979011
commit c870e27ac5
14 changed files with 49 additions and 1772 deletions
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conf/airframes/examples/ardrone2_gazebo_cyberzoo.xml
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<!DOCTYPE airframe SYSTEM "../airframe.dtd">
<airframe name="ardrone2">
<firmware name="rotorcraft">
<target name="nps" board="pc">
<module name="fdm" type="gazebo"/>
</target>
<define name="USE_SONAR" value="TRUE"/>
<!-- Subsystem section -->
<module name="telemetry" type="transparent_udp"/>
<module name="radio_control" type="datalink"/>
<module name="motor_mixing"/>
<module name="actuators" type="ardrone2"/>
<module name="imu" type="ardrone2"/>
<!-- gps: "ublox" or change to "sirf" for usage with parrot flight recorder -->
<module name="gps" type="ublox"/>
<module name="stabilization" type="int_quat"/>
<module name="ahrs" type="int_cmpl_quat"/>
<module name="ins" type="extended"/>
<module name="bat_voltage_ardrone2"/>
<!-- remove the gps_ubx_ucenter module if you use the sirf gps (flight recorder) -->
<module name="gps" type="ubx_ucenter"/>
<module name="send_imu_mag_current"/>
<module name="air_data"/>
<module name="geo_mag"/>
<!--module name="logger_file"/-->
<module name="video_thread">
</module>
<module name="cv_colorfilter">
<define name="COLORFILTER_CAMERA" value="front_camera"/>
</module>
<module name="orange_avoider" />
<module name="video_rtp_stream">
<define name="VIEWVIDEO_CAMERA" value="front_camera"/>
<define name="VIEWVIDEO_DOWNSIZE_FACTOR" value="4"/>
<define name="VIEWVIDEO_QUALITY_FACTOR" value="60"/>
</module>
</firmware>
<commands>
<axis name="PITCH" failsafe_value="0"/>
<axis name="ROLL" failsafe_value="0"/>
<axis name="YAW" failsafe_value="0"/>
<axis name="THRUST" failsafe_value="3000"/>
</commands>
<servos driver="Default">
<servo name="TOP_LEFT" no="0" min="0" neutral="1" max="500"/>
<servo name="TOP_RIGHT" no="1" min="0" neutral="1" max="500"/>
<servo name="BOTTOM_RIGHT" no="2" min="0" neutral="1" max="500"/>
<servo name="BOTTOM_LEFT" no="3" min="0" neutral="1" max="500"/>
</servos>
<section name="MIXING" prefix="MOTOR_MIXING_">
<define name="TRIM_ROLL" value="0"/>
<define name="TRIM_PITCH" value="0"/>
<define name="TRIM_YAW" value="0"/>
<!-- Time cross layout (X), with order NW (CW), NE (CCW), SE (CW), SW (CCW) -->
<define name="TYPE" value="QUAD_X"/>
</section>
<command_laws>
<call fun="motor_mixing_run(autopilot_get_motors_on(),FALSE,values)"/>
<set servo="TOP_LEFT" value="motor_mixing.commands[MOTOR_FRONT_LEFT]"/>
<set servo="TOP_RIGHT" value="motor_mixing.commands[MOTOR_FRONT_RIGHT]"/>
<set servo="BOTTOM_RIGHT" value="motor_mixing.commands[MOTOR_BACK_RIGHT]"/>
<set servo="BOTTOM_LEFT" value="motor_mixing.commands[MOTOR_BACK_LEFT]"/>
</command_laws>
<!-- Gazebo Simulation values -->
<section name="COLORFILTER" prefix="ORANGE_AVOIDER_">
<define name="LUM_MIN" value="41"/>
<define name="LIM_MAX" value="183"/>
<define name="CB_MIN" value="53"/>
<define name="CB_MAX" value="121"/>
<define name="CR_MIN" value="134"/>
<define name="CR_MAX" value="249"/>
</section>
<section name="IMU" prefix="IMU_">
<!-- Accelero -->
<define name="ACCEL_X_NEUTRAL" value="2048"/>
<define name="ACCEL_Y_NEUTRAL" value="2048"/>
<define name="ACCEL_Z_NEUTRAL" value="2048"/>
<!-- Magneto calibration -->
<define name="MAG_X_NEUTRAL" value="0"/>
<define name="MAG_Y_NEUTRAL" value="0"/>
<define name="MAG_Z_NEUTRAL" value="-180"/>
<define name="MAG_X_SENS" value="16." integer="16"/>
<define name="MAG_Y_SENS" value="16." integer="16"/>
<define name="MAG_Z_SENS" value="16." integer="16"/>
<!-- Magneto current calibration -->
<define name="MAG_X_CURRENT_COEF" value="0.0"/>
<define name="MAG_Y_CURRENT_COEF" value="0.0"/>
<define name="MAG_Z_CURRENT_COEF" value="0.0"/>
<define name="BODY_TO_IMU_PHI" value="0." unit="deg"/>
<define name="BODY_TO_IMU_THETA" value="0." unit="deg"/>
<define name="BODY_TO_IMU_PSI" value="0." unit="deg"/>
</section>
<!-- local magnetic field -->
<!-- http://wiki.paparazziuav.org/wiki/Subsystem/ahrs#Local_Magnetic_Field -->
<section name="AHRS" prefix="AHRS_">
<!-- values used if no GPS fix, on 3D fix is update by geo_mag module -->
<!-- Toulouse -->
<define name="H_X" value="0.513081"/>
<define name="H_Y" value="-0.00242783"/>
<define name="H_Z" value="0.858336"/>
<!-- Delft -->
<!--define name="H_X" value="0.3892503"/>
<define name="H_Y" value="0.0017972"/>
<define name="H_Z" value="0.9211303"/ -->
</section>
<section name="INS" prefix="INS_">
<define name="SONAR_MAX_RANGE" value="2.2"/>
<define name="SONAR_UPDATE_ON_AGL" value="TRUE"/>
</section>
<section name="STABILIZATION_ATTITUDE" prefix="STABILIZATION_ATTITUDE_">
<!-- setpoints -->
<define name="SP_MAX_PHI" value="45" unit="deg"/>
<define name="SP_MAX_THETA" value="45" unit="deg"/>
<define name="SP_MAX_R" value="600" unit="deg/s"/>
<define name="DEADBAND_A" value="0"/>
<define name="DEADBAND_E" value="0"/>
<define name="DEADBAND_R" value="250"/>
<!-- reference -->
<define name="REF_OMEGA_P" value="450" unit="deg/s"/>
<define name="REF_ZETA_P" value="0.9"/>
<define name="REF_MAX_P" value="600." unit="deg/s"/>
<define name="REF_MAX_PDOT" value="RadOfDeg(8000.)"/>
<define name="REF_OMEGA_Q" value="450" unit="deg/s"/>
<define name="REF_ZETA_Q" value="0.9"/>
<define name="REF_MAX_Q" value="600." unit="deg/s"/>
<define name="REF_MAX_QDOT" value="RadOfDeg(8000.)"/>
<define name="REF_OMEGA_R" value="200" unit="deg/s"/>
<define name="REF_ZETA_R" value="0.9"/>
<define name="REF_MAX_R" value="300." unit="deg/s"/>
<define name="REF_MAX_RDOT" value="RadOfDeg(4000.)"/>
<!-- feedback -->
<define name="PHI_PGAIN" value="850"/>
<define name="PHI_DGAIN" value="425"/>
<define name="PHI_IGAIN" value="0"/>
<define name="THETA_PGAIN" value="850"/>
<define name="THETA_DGAIN" value="425"/>
<define name="THETA_IGAIN" value="0"/>
<define name="PSI_PGAIN" value="1000"/>
<define name="PSI_DGAIN" value="700"/>
<define name="PSI_IGAIN" value="0"/>
<!-- feedforward -->
<define name="PHI_DDGAIN" value="0"/>
<define name="THETA_DDGAIN" value="0"/>
<define name="PSI_DDGAIN" value="100"/>
</section>
<section name="GUIDANCE_V" prefix="GUIDANCE_V_">
<define name="HOVER_KP" value="283"/>
<define name="HOVER_KD" value="82"/>
<define name="HOVER_KI" value="13"/>
<define name="NOMINAL_HOVER_THROTTLE" value="0.655"/>
<define name="ADAPT_THROTTLE_ENABLED" value="FALSE"/>
</section>
<section name="GUIDANCE_H" prefix="GUIDANCE_H_">
<!-- Good weather -->
<define name="MAX_BANK" value="20" unit="deg"/>
<!-- Bad weather -->
<!-- define name="MAX_BANK" value="32" unit="deg"/ -->
<define name="PGAIN" value="79"/>
<define name="DGAIN" value="100"/>
<define name="IGAIN" value="30"/>
</section>
<section name="SIMULATOR" prefix="NPS_">
<define name="GAZEBO_WORLD" value='"ardrone_cyberzoo.world"'/>
<define name="ACTUATOR_NAMES" value="nw_motor, ne_motor, se_motor, sw_motor" type="string[]"/>
<define name="JSBSIM_MODEL" value="simple_ardrone2" type="string"/>
<define name="SENSORS_PARAMS" value="nps_sensors_params_ardrone2.h" type="string"/>
</section>
<include href="conf/simulator/gazebo/airframes/ardrone2.xml"/>
<section name="AUTOPILOT">
<define name="MODE_STARTUP" value="AP_MODE_NAV"/>
<define name="MODE_MANUAL" value="AP_MODE_ATTITUDE_DIRECT"/>
<define name="MODE_AUTO1" value="AP_MODE_ATTITUDE_Z_HOLD"/>
<define name="MODE_AUTO2" value="AP_MODE_NAV"/>
</section>
<section name="BAT">
<define name="MILLIAMP_AT_FULL_THROTTLE" value="8700"/>
<define name="CATASTROPHIC_BAT_LEVEL" value="9.3" unit="V"/>
<define name="CRITIC_BAT_LEVEL" value="9.6" unit="V"/>
<define name="LOW_BAT_LEVEL" value="9.7" unit="V"/>
<define name="MAX_BAT_LEVEL" value="12.4" unit="V"/>
</section>
</airframe>