I am using MD49 Motor Drive with its motors

https://www.robot-electronics.co.uk/htm/md49tech.htm

http://wiki.ros.org/md49_base_controller

How to subscribe (encoder_l and encoder_r) from md49_base_controller package and publish (vx , vy ,and vth ) as a form odom (nav_msgs/Odometry) ?

**There are two problem:**

1-The first is that the encoders outputs are not correct "the package needs to be modified.

2-The second is the I want to create a package that subscribe the right and left wheels encoder counts (encoder_l and encoder_r) and publish (vx , vy ,and vth) as a form odom (nav_msgs/Odometry) to be compatable wth imu MPU9250

http://wiki.ros.org/robot_pose_ekf

**The proposed package is:**

1- We have to convert (encoder_l and encoder_r) to (RPM_l and RPM_r) as follow:

```
if (speed_l>128){newposition1 = encoder_l;}
else if (speed_l<128){ newposition1 = 0xFFFFFFFF-encoder_l;}
else if (speed_l==128) {newposition1=0;}
newtime1 = millis();
RPM_l = ((newposition1-oldposition1)*1000*60)/((newtime1-oldtime1)*980);
oldposition1 = newposition1;
oldtime1 = newtime1;
delay(250);
if (speed_r>128){ newposition2 = encoder_r;}
else if (speed_r<128){ newposition2 = 0xFFFFFFFF-encoder_r;}
else if (speed_r==128) { newposition2=0;}
newtime2 = millis();
RPM_r = ((newposition2-oldposition2)*1000*60)/((newtime2-oldtime2)*980);
oldposition2 = newposition2;
oldtime2= newtime2;
delay(250);
```

2- We have to convert (RPM_l and RPM_r) to (vx, vy, and vth) as follow:

```
vx=(r/2)*RPM_l*math.cos(th)+(r/2)*RPM_r*math.cos(th);
vx=(r/2)*RPM_l*math.sin(th)+(r/2)*RPM_r*math.sin(th);
vth=(r/B)*omega_l-(r/B)*omega_r;
```

Hint: r and B are wheel radius and vehicle width respectively.

3- The odom (nav_msgs/Odometry) package is:

```
#!/usr/bin/env python
import math
from math import sin, cos, pi
import rospy
import tf
from nav_msgs.msg import Odometry
from geometry_msgs.msg import Point, Pose, Quaternion, Twist, Vector3
from md49_messages.msg import md49_encoders
rospy.init_node('odometry_publisher')
odom_pub = rospy.Publisher("odom", Odometry, queue_size=50)
odom_broadcaster = tf.TransformBroadcaster()
x = 0.0
y = 0.0
th = 0.0
vx =0.1
vy = -0.1
vth = 0.1
current_time = rospy.Time.now()
last_time = rospy.Time.now()
r = rospy.Rate(1.0)
while not rospy.is_shutdown():
current_time = rospy.Time.now()
# compute odometry in a typical way given the velocities of the robot
dt = (current_time - last_time).to_sec()
delta_x = (vx * cos(th) - vy * sin(th)) * dt
delta_y = (vx * sin(th) + vy * cos(th)) * dt
delta_th = vth * dt
x += delta_x
y += delta_y
th += delta_th
# since all odometry is 6DOF we'll need a quaternion created from yaw
odom_quat = tf.transformations.quaternion_from_euler(0, 0, th)
# first, we'll publish the transform over tf
odom_broadcaster.sendTransform(
(x, y, 0.),
odom_quat,
current_time,
"base_link",
"odom"
)
# next, we'll publish the odometry message over ROS
odom = Odometry()
odom.header.stamp = current_time
odom.header.frame_id = "odom"
# set the position
odom.pose.pose = Pose(Point(x, y, 0.), Quaternion(*odom_quat))
# set the velocity
odom.child_frame_id = "base_link"
odom.twist.twist = Twist(Vector3(vx, vy, 0), Vector3(0, 0, vth))
# publish the message
odom_pub.publish(odom)
last_time = current_time
r.sleep()
```