def waypoints_callback(self, msg):
     #replace the waypoints array with new data
     xyz_points = []
     for gps_point in msg.waypoints:
         point = PointStamped()
         point.header = Header()
         point.header.frame_id = '/odom'
         point.point = gps_util.get_point(gps_point)
         xyz_points.append(point)
         self.xyz_waypoint_pub.publish(point)
Exemple #2
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 def get_point_at_index(self, index):
     if not self.waypoints or index >= len(self.waypoints):
         return None
     goal = self.waypoints[index]
     xyz_goal = gps_util.get_point(goal.latitude, goal.longitude)
     goal_point = Point()
     goal_point.x = xyz_goal.x
     goal_point.y = xyz_goal.y
     goal_point.z = 0  #elevation is always 0
     return goal_point
Exemple #3
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    def waypoints_callback(self, msg):
        """
        Waypoints callback does way too much right now. All of the path stuff should be handled in a helper method
        """

        google_points = []

        #Reads each point in the waypoint topic into google_points
        for gps_point in msg.waypoints:
            point = gps_util.get_point(gps_point)
            google_points.append(point)

        print len(google_points)

        #Adds more points between the google points
        google_points_plus = gps_util.add_intermediate_points(
            google_points, 15.0)
        print len(google_points_plus)

        ax = []
        ay = []

        extra_points = Path()
        extra_points.header = Header()
        extra_points.header.frame_id = '/map'

        #Puts the x's and y's
        for p in google_points_plus:
            extra_points.poses.append(self.create_poseStamped(p))
            ax.append(p.x)
            ay.append(p.y)

        self.points_pub.publish(extra_points)

        #calculate the spline
        cx, cy, cyaw, ck, s = cubic_spline_planner.calc_spline_course(ax,
                                                                      ay,
                                                                      ds=0.1)

        path = Path()
        path.header = Header()
        path.header.frame_id = '/map'

        for i in range(0, len(cx)):
            curve_point = Point()
            curve_point.x = cx[i]
            curve_point.y = cy[i]
            path.poses.append(self.create_poseStamped(curve_point))

        self.path_pub.publish(path)

        #================================================ pure persuit copy/pase ===============================================

        k = 0.1  # look forward gain
        Lfc = 3.5  # look-ahead distance
        Kp = 1.0  # speed propotional gain
        dt = 0.1  # [s]
        L = 2.9  # [m] wheel base of vehicle

        target_speed = 10.0 / 3.6  # [m/s]
        T = 100.0  # max simulation time

        # initial state
        pose = self.odom.pose.pose
        twist = self.odom.twist.twist

        quat = (pose.orientation.x, pose.orientation.y, pose.orientation.z,
                pose.orientation.w)
        angles = tf.euler_from_quaternion(quat)
        initial_v = math.sqrt(twist.linear.x**2 + twist.linear.y**2)
        state = State(x=pose.position.x,
                      y=pose.position.y,
                      yaw=angles[2],
                      v=initial_v)  #TODO this has to be where we start

        lastIndex = len(cx) - 1
        time = 0.0
        x = [state.x]
        y = [state.y]
        yaw = [state.yaw]
        v = [state.v]
        t = [0.0]
        target_ind = pure_pursuit.calc_target_index(state, cx, cy)

        while lastIndex > target_ind:
            ai = pure_pursuit.PIDControl(target_speed, state.v)
            di, target_ind = pure_pursuit.pure_pursuit_control(
                state, cx, cy, target_ind)

            #publish where we want to be
            mkr = self.create_marker(cx[target_ind], cy[target_ind], '/map')
            self.target_pub.publish(mkr)

            #publish an arrow with our twist
            arrow = self.create_marker(0, 0, '/base_link')
            arrow.type = 0  #arrow
            arrow.scale.x = 2.0
            arrow.scale.y = 1.0
            arrow.scale.z = 1.0
            arrow.color.r = 1.0
            arrow.color.g = 0.0
            arrow.color.b = 0.0
            #TODO di might be in radians so that might be causing the error
            quater = tf.quaternion_from_euler(0, 0, di)
            arrow.pose.orientation.x = quater[0]
            arrow.pose.orientation.y = quater[1]
            arrow.pose.orientation.z = quater[2]
            arrow.pose.orientation.w = quater[3]
            self.target_twist_pub.publish(arrow)

            #go back to pure persuit
            state = self.update(state, ai, di)

            #time = time + dt

            x.append(state.x)
            y.append(state.y)
            yaw.append(state.yaw)
            v.append(state.v)
            t.append(time)

        # Test
        assert lastIndex >= target_ind, "Cannot goal"

        rospy.logerr("Done navigating")
        msg = VelAngle()
        msg.vel = 0
        msg.angle = 0
        msg.vel_curr = 0
        self.motion_pub.publish(msg)
Exemple #4
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def gps_array_to_xyz_array(gps_array):
    return geometry_util.add_intermediate_points(
        [gps_util.get_point(gps.latitude, gps.longitude) for gps in gps_array],
        1)