added sonar (topic: /mavros/distance_sensor)

This commit is contained in:
cesar 2022-04-25 16:51:49 -03:00
parent ef4ea858ea
commit 59190e9d42
2 changed files with 130 additions and 9 deletions

View File

@ -2,7 +2,7 @@
<sdf version='1.6'> <sdf version='1.6'>
<model name='spiri'> <model name='spiri'>
<link name='base'> <link name='base'>
<pose frame=''>0 0 0 0 -0 3.141</pose> <pose frame=''>0 0 0 0 -0 0</pose>
<gravity>1</gravity> <gravity>1</gravity>
<inertial> <inertial>
<pose frame=''>0 0.00268 -0.000742 0 -0 0</pose> <pose frame=''>0 0.00268 -0.000742 0 -0 0</pose>
@ -408,6 +408,118 @@
<child>gps0_link</child> <child>gps0_link</child>
</joint> </joint>
</model> </model>
<!--model name="sonar">
<link name="sonar_link">
<pose>0 0 0 0 0 0</pose>
<inertial>
<pose>0 0 0 0 0 0</pose>
<mass>0.000000000000001</mass>
<inertia>
<ixx>2.08333333e-7</ixx>
<ixy>0</ixy>
<ixz>0</ixz>
<iyy>2.08333333e-7</iyy>
<iyz>0</iyz>
<izz>4.16666667e-8</izz>
</inertia>
</inertial>
<visual name="visual">
<geometry>
<box>
<size>0.005 0.015 0.005</size>
</box>
</geometry>
<material>
<script>
<name>Gazebo/Black</name>
</script>
</material>
</visual>
<sensor name="sonar" type="sonar">
<pose>0 0 0 0 0 0</pose>
<sonar>
<min>0.02</min>
<max>10.0</max>
<radius>1.33974388395</radius>
</sonar>
<plugin name="SonarPlugin" filename="libgazebo_sonar_plugin.so">
<robotNamespace></robotNamespace>
<topic>/height_cesar</topic>
</plugin>
<always_on>1</always_on>
<update_rate>20</update_rate>
<visualize>true</visualize>
</sensor>
</link>
</model>
<joint name='sonar_joint' type='fixed'>
<parent>base</parent>
<child>sonar_link</child>
</joint-->
<!--sonar-->
<link name="sonar_link">
<pose frame=''>0 0 0 0 1.57 0</pose>
<inertial> <!-- causes issues when omitted -->
<mass>0.05</mass>
<inertia>
<ixx>2.08333333333e-07</ixx>
<iyy>5.20833333333e-07</iyy>
<izz>5.20833333333e-07</izz>
</inertia>
</inertial>
<visual name="sonar_link_visual">
<pose frame=''>0 0 0 0 0 0</pose>
<geometry>
<cylinder>
<length>0.008</length>
<radius>0.004</radius>
</cylinder>
</geometry>
<material>
<script>
<name>Gazebo/Blue</name>
<uri>file://media/materials/scripts/gazebo.material</uri>
</script>
</material>
</visual>
<sensor type="ray" name="spiri_sonar">
<update_rate>10</update_rate>
<visualize>true</visualize>
<ray>
<scan>
<horizontal>
<samples>1</samples>
<resolution>1</resolution>
<min_angle>-0</min_angle>
<max_angle>0</max_angle>
</horizontal>
</scan>
<range>
<min>0.06</min> <!-- do not lower past 0.06 -->
<max>35</max> <!-- do not increase past 35 -->
<resolution>0.01</resolution>
</range>
<noise>
<type>gaussian</type>
<mean>0.0</mean>
<stddev>0.01</stddev>
</noise>
</ray>
<plugin name="spiri_sonar" filename="libgazebo_ros_range.so">
<gaussianNoise>0.005</gaussianNoise>
<alwaysOn>true</alwaysOn>
<updateRate>10</updateRate>
<topicName>/mavros/distance_sensor</topicName>
<frameName>sonar_link</frameName>
<fov>0</fov>
<radiation>ultrasound</radiation>
</plugin>
</sensor>
</link>
<joint name="sonar_joint" type="fixed">
<parent>base</parent>
<child>sonar_link</child>
</joint>
<plugin name='rosbag' filename='libgazebo_multirotor_base_plugin.so'> <plugin name='rosbag' filename='libgazebo_multirotor_base_plugin.so'>
<robotNamespace/> <robotNamespace/>
<linkName>base</linkName> <linkName>base</linkName>

View File

@ -101,8 +101,10 @@ class Main:
# PD Thrust Controller terms # PD Thrust Controller terms
# gains for thrust PD Controller # gains for thrust PD Controller
#self.Kp = 2.7
#self.Kd = 3
self.Kp = 2.7 self.Kp = 2.7
self.Kd = 3 #2 self.Kd = 3
self.max_a = 14.2 self.max_a = 14.2
self.max_t = self.drone_m*self.max_a self.max_t = self.drone_m*self.max_a
self.R = np.empty([3,3]) # rotation matrix self.R = np.empty([3,3]) # rotation matrix
@ -255,12 +257,19 @@ class Main:
[self.dr_pos.position.y - self.xd.y], [self.dr_pos.position.y - self.xd.y],
[self.dr_pos.position.z - self.xd.z - self.thrust_offset]]) [self.dr_pos.position.z - self.xd.z - self.thrust_offset]])
self.error_vel = self.dr_vel - self.path_vel
self.R = self.quaternion_rotation_matrix() # determine Rotation Matrix self.R = self.quaternion_rotation_matrix() # determine Rotation Matrix
self.R_e3 = np.array([[self.R.T[2][0]],[self.R.T[2][1]],[self.R.T[2][2]]])
#thrust = np.dot(np.dot(9.81*self.drone_m,self.e3) - self.Kp*self.error - self.Kd*self.dr_vel.T,self.R.T[2])/self.max_t #thrust = np.dot(np.dot(9.81*self.drone_m,self.e3) - self.Kp*self.error - self.Kd*self.dr_vel,self.R.T[2])/self.max_t
thrust_vector = np.dot(np.dot(9.81*self.drone_m,self.e3) - self.Kp*self.error - self.Kd*self.dr_vel.T,self.R.T[2])/self.max_t #thrust_vector = np.dot(9.81*self.drone_m*self.e3 - self.Kp*self.error - self.Kd*self.dr_vel,self.R_e3)/self.max_t
thrust = thrust_vector[2] #thrust_vector = (9.81*self.drone_m*self.e3 - self.Kp*self.error - self.Kd*self.dr_vel -9.81*self.drone_m*self.path_acc)/self.max_t
thrust_vector = (9.81*self.drone_m - self.Kp*self.error[2] - self.Kd*self.dr_vel[2])/self.max_t
#thrust = thrust_vector[0]*self.R_e3[0] + thrust_vector[1]*self.R_e3[1] + thrust_vector[2]*self.R_e3[2]
thrust = thrust_vector/(math.cos(self.EulerAng[0]*self.EulerAng[1]))
#thrust = thrust_vector[2]
# Value needs to be between 0 - 1.0 # Value needs to be between 0 - 1.0
self.att_targ.thrust = max(0.0,min(thrust,1.0)) self.att_targ.thrust = max(0.0,min(thrust,1.0))