def send_trajectory(traj_3d, sampling_rate): r = rospy.Rate(sampling_rate) for i in range(len(traj_3d.time)): att_msg = AttPVA() att_msg.use_position = True att_msg.use_speed = True att_msg.use_acceleration = False att_msg.use_rate = False att_msg.use_yaw = False att_msg.posZ_thrust = traj_3d.position[i].position.z att_msg.posY_pitch = traj_3d.position[i].position.y att_msg.posX_roll = traj_3d.position[i].position.x att_msg.velZ = traj_3d.velocity[i].linear.z att_msg.velY = traj_3d.velocity[i].linear.y att_msg.velX = traj_3d.velocity[i].linear.x att_msg.accZ = traj_3d.acceleration[i].force.z att_msg.accY = traj_3d.acceleration[i].force.y att_msg.accX = traj_3d.acceleration[i].force.x pub.publish(att_msg) #inter = (currX-att_msg.posX_roll)*(currX-att_msg.posX_roll) + (currY- att_msg.posY_pitch)*(currY- att_msg.posY_pitch) + (currZ - att_msg.posZ_thrust)*(currZ - att_msg.posZ_thrust) #while (inter > 0.25): # inter = (currX-att_msg.posX_roll)*(currX-att_msg.posX_roll) + (currY- att_msg.posY_pitch)*(currY- att_msg.posY_pitch) + (currZ - att_msg.posZ_thrust)*(currZ - att_msg.posZ_thrust) #pva.t = rospy.Time.from_sec(traj_3d.time[i]) #pva.pos = traj_3d.position[i] #pva.vel = traj_3d.velocity[i] r.sleep()
def get_att_pva(current_target_pos, current_target_vel): att_msg = AttPVA() att_msg.use_position = True att_msg.use_speed = True att_msg.use_acceleration = False att_msg.use_rate = False att_msg.use_yaw = True att_msg.yaw = -0.0 att_msg.posZ_thrust = current_target_pos.z att_msg.posY_pitch = current_target_pos.y att_msg.posX_roll = current_target_pos.x att_msg.velZ = current_target_vel.z att_msg.velY = current_target_vel.y att_msg.velX = current_target_vel.x return att_msg
def send_position(pos): att_msg = AttPVA() att_msg.use_position = True att_msg.posZ_thrust = pos.z att_msg.posY_pitch = pos.y att_msg.posX_roll = pos.x att_msg.use_speed = False att_msg.use_yaw = True att_msg.yaw = -0.07 #att_msg.use_rate = False #att_msg.velZ = val #att_msg.velX = val #att_msg.velY = val #and so on pub.publish(att_msg)
def get_att_pva(current_target_pos, current_target_vel, current_target_acc): att_msg = AttPVA() att_msg.use_position = True att_msg.use_speed = True att_msg.use_acceleration = False att_msg.use_rate = False att_msg.use_yaw = True att_msg.yaw = -0.08 att_msg.posZ_thrust = current_target_pos.position.z att_msg.posY_pitch = current_target_pos.position.y att_msg.posX_roll = current_target_pos.position.x att_msg.velZ = current_target_vel.linear.z att_msg.velY = current_target_vel.linear.y att_msg.velX = current_target_vel.linear.x att_msg.accZ = current_target_acc.force.z att_msg.accY = current_target_acc.force.y att_msg.accX = current_target_acc.force.x return att_msg
def send_trajectory(traj_3d, sampling_rate,publisher): r = rospy.Rate(sampling_rate) for i in range(len(traj_3d.time)): att_msg = AttPVA() att_msg.use_position = True att_msg.use_speed = True att_msg.use_acceleration = False att_msg.use_rate = False att_msg.use_yaw = True att_msg.yaw = 0 att_msg.posZ_thrust =traj_3d.position[i].position.z att_msg.posY_pitch = traj_3d.position[i].position.y att_msg.posX_roll = traj_3d.position[i].position.x att_msg.velZ=traj_3d.velocity[i].linear.z att_msg.velY=traj_3d.velocity[i].linear.y att_msg.velX=traj_3d.velocity[i].linear.x att_msg.accZ=traj_3d.acceleration[i].force.z att_msg.accY=traj_3d.acceleration[i].force.y att_msg.accX=traj_3d.acceleration[i].force.x publisher.publish(att_msg) r.sleep()
#reponse = cmd_srv(cmdAction.is_poshld,cmdAction.is_posctl,cmdAction.attctl,cmdAction.arm_motors,cmdAction.start_takeoff,cmdAction.start_landing) wait_rate = rospy.Rate(20) wait_rate.sleep() wait_rate.sleep() count = 0 att_msg = AttPVA() att_msg.use_position = True att_msg.use_speed = False att_msg.use_acceleration = False att_msg.use_rate = False att_msg.use_yaw = False att_msg.posZ_thrust = z_init att_msg.posY_pitch = y_init att_msg.posX_roll = x_init while (count < 15): count = count + 1 pub.publish(att_msg) wait_rate.sleep() print("Finish publishing start point ") bof = raw_input('Enter your input:') # cmdAction = CommandActionRequest() # cmdAction.is_posctl = 1 # reponse = cmd_srv(cmdAction) # wait_rate.sleep() # wait_rate.sleep() # wait_rate.sleep()