示例#1
0
		# success &= highlevel_movements.angular_action_movement(base,joint_positions=[91.583, 23.663, 174.547, 265.846, 180.949, 35.446, 272.106],speed=speedj)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.01796681061387062, -0.6095998287200928, 0.2607220709323883, -89.98168182373047, -176.41896057128906, 178.88327026367188],speed=speedl)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.015759950503706932, -0.6483935713768005, 0.2543827295303345, -91.34257507324219, 178.12986755371094, 178.2921905517578],speed=speedl)
		# # GRIPPER_ACTION
		# success &= highlevel_movements.send_gripper_command(base,value=0.7)
		# time.sleep(1)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.016505524516105652, -0.65036940574646, 0.38649141788482666, -92.8912353515625, 178.2748565673828, 179.34559631347656],speed=speedl)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.07478067278862, -0.1246325895190239, 0.8614432215690613, 90.16726684570312, 9.310687065124512, 5.854083061218262],speed=speedl)
		# # move to surveillance position
		#success &= highlevel_movements.angular_action_movement(base,joint_positions=[179.62, 307.879, 172.652, 289.174, 180.408, 69.243, 272.359],speed=speedj)
		#move to surveillance position
		#success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[-0.06,-0.096,0.8,-90.823,171.8,113.73],speed=0.1)

		#Dog Sequence
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[268, 240, 178, 213, 186, 56, 270],speed=4) #Dog Pose
		success &= highlevel_movements.send_gripper_command(base,value=0)
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[267.55, 265.4, 177.448, 213.575, 186.333, 34.982, 269.921],speed=1.5)
		#sys.exit()
		#success &= highlevel_movements.angular_action_movement(base,joint_positions=[258.146, 263.791, 79.082, 233.233, 173.541, 63.965, 178.723],speed=2)
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[235.447, 265.103, 86.313, 213.584, 170.83, 239.68, 178.675],speed=3)
		success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.008, -0.555, 0.253, 88.106, 2.153, 8.451],speed=speedl)
		#GRIPPER_ACTION
		success &= highlevel_movements.send_gripper_command(base,value=0.4)
		time.sleep(1.5)
		success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.003, -0.555, 0.377, 88.107, 2.155, 8.496],speed=speedl)
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[217.115, 287.757, 83.895, 268.331, 209.21, 38.784, 171.332],speed=4)

		enable_detection=False
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[92.74, 293.44, 175.53, 276.7, 184.22, 69.3, 271.8],speed=5,watch_for_flag=enable_detection,success_flag_shared=success_flag_shared.value)
		#sys.exit()
		#search for a face and interrupt when found
        #Move into transport position (home)
        home_pose = [184.19, 291.7, 171.7, 213.3, 181.8, 45.8, 266.6]
        #success &= highlevel_movements.angular_action_movement(base,joint_positions=home_pose,speed=5)
        success &= highlevel_movements.move_to_waypoint_linear(
            base,
            base_cyclic, [-0.06, -0.096, 0.8, -90.823, 171.8, 113.73],
            speed=speedl)
        #sys.exit()
        # home_pose=[-0.154,0,0.34,-55.9,173.3,86.6]
        # success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,waypoint=home_pose,speed=0.1)
        #Exectue Sequence
        #success &= highlevel_movements.call_kinova_web_sequence(base, base_cyclic,seq_name="grab_beer_v3")
        #sys.exit()
        #Execute Sequence V2

        highlevel_movements.send_gripper_command(base, value=0.0)
        success &= highlevel_movements.angular_action_movement(
            base,
            joint_positions=[
                89.695, 336.743, 176.642, 232.288, 180.629, 70.981, 272.165
            ],
            speed=speedj)
        success &= highlevel_movements.angular_action_movement(
            base,
            joint_positions=[
                91.583, 23.663, 174.547, 265.846, 180.949, 35.446, 272.106
            ],
            speed=speedj)
        success &= highlevel_movements.move_to_waypoint_linear(
            base,
            base_cyclic, [
示例#3
0
def main():
	target_middle_shared=multiprocessing.Array("i",[0,0])
	delta_shared=multiprocessing.Array("i",[0,0])
	success_flag_shared=multiprocessing.Value("i",0)
	vision_middle_shared=multiprocessing.Array("i",[0,0])
	h_shared=multiprocessing.Value("i",0)
	w_shared=multiprocessing.Value("i",0)
	elapsed_time=multiprocessing.Value("d",0.0)
	args = utilities.parseConnectionArguments()
	# Create connection to the device and get the router
	e = multiprocessing.Event()
	p = multiprocessing.Process(target=cam, args=('rtsp://192.168.1.10/color',e,target_middle_shared,delta_shared,success_flag_shared,vision_middle_shared,h_shared,w_shared,elapsed_time,beer_time))
	p.start()
	with utilities.DeviceConnection.createTcpConnection(args) as router:
		# Create required services
		base = BaseClient(router)
		base_cyclic = BaseCyclicClient(router)
		device_manager = DeviceManagerClient(router)

		#Activate the continuous auto-focus of the camera

		vision_config = VisionConfigClient(router)

		vision_device_id = vision_action.example_vision_get_device_id(device_manager)

		# if vision_device_id != 0:
		# 	vision_action.autofocus_action(vision_config, vision_device_id,action_id=2)

		# Initial Movements
		success = True
		#Move into transport position (home)
		home_pose=[184.19,291.7,171.7,213.3,181.8,45.8,266.6]
		#success &= highlevel_movements.angular_action_movement(base,joint_positions=home_pose,speed=5)
		#success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[-0.06,-0.096,0.8,-90.823,171.8,113.73],speed=speedl)


		# Grab the beer
		#Desk Sequence
		# highlevel_movements.send_gripper_command(base,value=0.0)
		# #success &= highlevel_movements.angular_action_movement(base,joint_positions=[89.695, 336.743, 176.642, 232.288, 180.629, 70.981, 272.165],speed=speedj)
		# success &= highlevel_movements.angular_action_movement(base,joint_positions=[91.583, 23.663, 174.547, 265.846, 180.949, 35.446, 272.106],speed=speedj)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.01796681061387062, -0.6095998287200928, 0.2607220709323883, -89.98168182373047, -176.41896057128906, 178.88327026367188],speed=speedl)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.015759950503706932, -0.6483935713768005, 0.2543827295303345, -91.34257507324219, 178.12986755371094, 178.2921905517578],speed=speedl)
		# # GRIPPER_ACTION
		# success &= highlevel_movements.send_gripper_command(base,value=0.7)
		# time.sleep(1)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.016505524516105652, -0.65036940574646, 0.38649141788482666, -92.8912353515625, 178.2748565673828, 179.34559631347656],speed=speedl)
		# success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.07478067278862, -0.1246325895190239, 0.8614432215690613, 90.16726684570312, 9.310687065124512, 5.854083061218262],speed=speedl)
		# # move to surveillance position
		#success &= highlevel_movements.angular_action_movement(base,joint_positions=[179.62, 307.879, 172.652, 289.174, 180.408, 69.243, 272.359],speed=speedj)
		#move to surveillance position
		#success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[-0.06,-0.096,0.8,-90.823,171.8,113.73],speed=0.1)

		#Dog Sequence Desired Pose : [249.37, 239.26, 223.77, 133.81, 217.24, 259.69, 307.95]
		#TODO Startposition [249.37, 239.26, 223.77, 133.81, 217.24, 259.69, 307.95] check
		#TODO Schwenk ins Publikum nach vorne (extra funktion, muss aufgerufen werden) Tkinter
		#TODO Winken nur mit oberen zwei Gelenken Tkinter
		#TODO Theta_y korrigieren
		#TODO Sicht korrigieren (Fokus und ggf. heller/Dunkler)
		# success &= highlevel_movements.angular_action_movement(base,joint_positions=[249.37, 239.26, 223.77, 133.81, 217.24, 259.69, 307.95],speed=10) #Dog Pose
		# sys.exit()
		success &= highlevel_movements.send_gripper_command(base,value=0) #open gripper
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[233.73, 265.96, 71.5, 212.18, 349.19, 70.11, 8.31],speed=speedj) #pre snake pose
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[257.64, 246.34, 31.6, 218.63, 214.63, 98.69, 129.78],speed=3) #desired dog pose
		#success &= highlevel_movements.angular_action_movement(base,joint_positions=[233.73, 265.96, 71.5, 212.18, 349.19, 70.11, 8.31],speed=speedj) #pre snake pose
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[238.78, 264.98, 70.21, 217.99, 349.19, 120.32, 8.3],speed=3) #snake
		success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.006, -0.536, 0.191, 88.99, 1.239, 7.97],speed=speedl)
		#GRIPPER_ACTION
		success &= highlevel_movements.send_gripper_command(base,value=0.4)
		time.sleep(1.5)
		success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.008, -0.535, 0.275, 88.988, 1.245, 7.968],speed=speedl) #move a little up
		#success &= highlevel_movements.angular_action_movement(base,joint_positions=[235.7, 344.71, 64.58, 219.35, 49.72, 80.94, 54.84],speed=speedj) # upright1
		#success &= highlevel_movements.angular_action_movement(base,joint_positions=[231.32, 353.1, 32.7, 304.08, 37.1, 321.32, 58.52],speed=speedj) #upright 2
		success &= highlevel_movements.angular_action_movement(base,joint_positions=[270.94, 42.99, 348.31, 305.15, 0.84, 286.28, 91.49],speed=speedj) #final
		#success &= highlevel_movements.move_to_waypoint_linear(base, base_cyclic,[0.117, -0.058, 0.914, 86.046, 9.61, 6.732],speed=speedl) #final

		#sys.exit()
		#search for a face and interrupt when found
		#vision_action.autofocus_action(vision_config, vision_device_id,action_id=4)

		success &= highlevel_movements.example_send_joint_speeds(base,speeds=[18, 0, 0, 0, 0, 0, 0],timer=20,success_flag_shared=success_flag_shared)
		#sys.exit()

		#Find Face
		t0=time.time()
		token=False
		target_reached_flag=False
		beer_mode=False
		print("searching for person")
		while True:
			if time.time()-t0>action_time_interval and success_flag_shared.value==True and beer_mode==False and p.is_alive():
				#calculate the pose increment and move robot into target
				target_reached_flag=functions_.rotate_to_target(
					delta_shared[:],target_middle_shared[:],vision_middle_shared[:],w_shared.value,h_shared.value,max_speed,min_speed,
					target_circle_size,base,base_cyclic)
				t0=time.time()
			elif time.time()-t0>action_time_interval and success_flag_shared.value==False and beer_mode==False:
				base.Stop()
				# if time.time()-t0>2:
				# 	vision_action.autofocus_action(vision_config, vision_device_id,action_id=6,focus_point=target_middle_shared[:])
			elif p.is_alive()==False:
				base.Stop()
				print("Process aborded")
				sys.exit()

	        #after robot is Xs in target, hand over beer
			if (target_reached_flag==True and token==True and success_flag_shared.value==True) or beer_mode==True:
				elapsed_time.value=time.time()-beer_timer
				if elapsed_time.value>beer_time:
					if beer_mode==False:
						reach_beer_twist_timer=time.time()
					beer_mode=True
					#the target was long enough in scope
					tool_twist_duration=6
					if time.time()-reach_beer_twist_timer<tool_twist_duration:
						highlevel_movements.tool_twist_time(base,tool_twist_duration,pose_distance=[0,-0.35,0.4,0,0,0])
					else:
						base.Stop()
						time.sleep(2) #swing out
						#wait until force applied to robot
						torque_tool=functions_.TorqueTool()
						torque_tool.tap_toggle(base_cyclic,torque_threshold=5)
						#open gripper
						highlevel_movements.send_gripper_command(base,value=0.0)
						time.sleep(2)

						home_pose=[184.19,291.7,171.7,213.3,181.8,45.8,266.6] #Desk
						#success &= highlevel_movements.angular_action_movement(base,joint_positions=[267.038, 239.612, 177.453, 212.171, 185.765, 56.095, 269.943],speed=speedj)

						highlevel_movements.tool_twist_time(base,tool_twist_duration,pose_distance=[0,-0.35,0.4,0,0,0])

						#Wave Sequence
						wave_start_pose=[180, 0, 0, 0, 82, 90, 270]
						wave_left_pose=list(map(add,wave_start_pose,[0,0,0,30,0,0,-30]))
						wave_time=2 #seconds
						#wave_left_pose=list(map(add,wave_start_pose,[0,-30,0,-30,0,0,0]))
						highlevel_movements.angular_action_movement(base,joint_positions=wave_start_pose,speed=4)
						#while True:
						highlevel_movements.angular_action_movement(base,joint_positions=wave_left_pose,speed=2.5) #okay
						highlevel_movements.angular_action_movement(base,joint_positions=[180, 0, 0, 330, 82, 90, 300],speed=4.5)
						highlevel_movements.angular_action_movement(base,joint_positions=wave_left_pose,speed=4.5)
						highlevel_movements.angular_action_movement(base,joint_positions=[180, 0, 0, 330, 82, 90, 300],speed=4.5)
						highlevel_movements.angular_action_movement(base,joint_positions=wave_start_pose,speed=2.5)
						#sys.exit()

						#Moving back to init Pose
						success &= highlevel_movements.angular_action_movement(base,joint_positions=[233.73, 265.96, 71.5, 212.18, 349.19, 70.11, 8.31],speed=speedj) #pre snake pose
						success &= highlevel_movements.angular_action_movement(base,joint_positions=[257.64, 246.34, 31.6, 218.63, 214.63, 98.69, 129.78],speed=3) #desired dog pose

						#success &= highlevel_movements.angular_action_movement(base,joint_positions=home_pose,speed=speedj)
						e.set() #kill the camera process
						break

			elif target_reached_flag==True and success_flag_shared.value==True:
				beer_timer=time.time()
				token=True
			else:
				token=False
				elapsed_time.value=0
def main():
    # Create connection to the device and get the router
    global args
    global e
    if not args:
        args = utilities.parseConnectionArguments()
    with utilities.DeviceConnection.createTcpConnection(
            args) as router:  #kann das "with" weg? Nein
        # Create required services
        base = BaseClient(router)
        base_cyclic = BaseCyclicClient(router)
        device_manager = DeviceManagerClient(router)
        #Activate the continuous auto-focus of the camera
        vision_config = VisionConfigClient(router)
        vision_device_id = vision_action.example_vision_get_device_id(
            device_manager)
        # if vision_device_id != 0:
        # 	vision_action.autofocus_action(vision_config, vision_device_id,action_id=2)
        # Initial Movements
        success = True
        success &= highlevel_movements.send_gripper_command(
            base, value=0)  #open gripper
        if functions_.pose_comparison(
                transport_pos, base_cyclic,
                "joint") == True:  #Robot already in position?
            success &= highlevel_movements.angular_action_movement(
                e,
                base,
                base_cyclic,
                joint_positions=pre_transport_pos,
                speed=speedj)  #pre transport pose
            temp_speed = 3
        else:
            temp_speed = 10  #robot further away so give more time
        success &= highlevel_movements.angular_action_movement(
            e,
            base,
            base_cyclic,
            joint_positions=[
                231.4, 266.21, 67.14, 216.41, 346.65, 114.31, 10.59
            ],
            speed=speedj)  #snake
        time.sleep(0.4)
        success &= highlevel_movements.move_to_waypoint_linear(
            e,
            base,
            base_cyclic, [0.02, -0.511, 0.184, 90.689, 3.832, 4.054],
            speed=3)  #pre bottle
        success &= highlevel_movements.move_to_waypoint_linear(
            e,
            base,
            base_cyclic, [0.023, -0.539, 0.184, 90.687, 3.828, 4.049],
            speed=3)  #bottle
        success &= highlevel_movements.send_gripper_command(base, value=0.8)
        #time.sleep(2)
        success &= highlevel_movements.move_to_waypoint_linear(
            e,
            base,
            base_cyclic, [0.032, -0.553, 0.335, 90.691, 3.831, 4.048],
            speed=3)  #move bottle up
        success &= highlevel_movements.angular_action_movement(
            e,
            base,
            base_cyclic,
            joint_positions=[
                270.94, 42.99, 348.31, 305.15, 0.84, 286.28, 91.49
            ],
            speed=speedj)  #final
        time.sleep(0.5)
        #INSERT Focus on target_pose
        #search for a face and interrupt when found
        success &= highlevel_movements.example_send_joint_speeds(
            e, base, speeds=[12, 0, 0, 0, 0, 0,
                             0], timer=0)  #robot rotates until face found
        while success_flag_shared.value == False and e.is_set(
        ) == False:  #success_flag_shared gets True when face was detected
            time.sleep(0.05)
        base.Stop()
        #Follow Face
        t0 = time.time()
        token = False  # plays a role when beer has to be handed over after target was in lock for some time
        target_reached_flag = False
        beer_mode = False  #hand over beer
        print("searching for person")
        while e.is_set() == False:
            if time.time(
            ) - t0 > action_time_interval and success_flag_shared.value == True and beer_mode == False:
                #calculate the pose increment and rotate robot into target
                target_reached_flag = functions_.rotate_to_target(
                    delta_shared[:], w_shared.value, h_shared.value, max_speed,
                    min_speed, target_circle_size, base, base_cyclic)
                t0 = time.time()
            elif time.time(
            ) - t0 > action_time_interval and success_flag_shared.value == False and beer_mode == False:
                #no target in sight
                base.Stop()
                # if no target was detected, search with base rotation
                if time.time() - t0 > 3:
                    #search for a face and interrupt when found
                    highlevel_movements.example_send_joint_speeds(
                        e, base, speeds=[12, 0, 0, 0, 0, 0, 0],
                        timer=0)  #robot rotates until face found
                    while success_flag_shared.value == False and e.is_set(
                    ) == False:  #success_flag_shared gets True when face was detected
                        time.sleep(0.05)
                    base.Stop()
                    t0 = time.time()

    #after robot is Xs in target, hand over beer
            if (target_reached_flag == True and token == True and
                    success_flag_shared.value == True) or beer_mode == True:
                elapsed_time.value = time.time() - beer_timer
                if elapsed_time.value > beer_time:
                    if beer_mode == False:
                        reach_beer_twist_timer = time.time()
                    beer_mode = True
                    #the target was long enough in scope
                    tool_twist_duration = 6
                    if time.time(
                    ) - reach_beer_twist_timer < tool_twist_duration:
                        highlevel_movements.tool_twist_time(
                            e,
                            base,
                            tool_twist_duration,
                            pose_distance=beer_pass_dist)
                    else:
                        base.Stop()
                        time.sleep(2)  #swing out
                        #wait until force applied to robot
                        torque_tool = functions_.TorqueTool()
                        torque_tool.tap_toggle(base_cyclic, torque_threshold=5)
                        #open gripper
                        highlevel_movements.send_gripper_command(base,
                                                                 value=0.0)
                        time.sleep(2)
                        #move into idle upright joint_position
                        #success &= highlevel_movements.angular_action_movement(e,base,base_cyclic,joint_positions=[87.58, 78.68, 353.68, 216.49, 4.0, 336.91, 89.14],speed=speedj)
                        print("beer was passed")
                        break

            elif target_reached_flag == True and success_flag_shared.value == True:
                beer_timer = time.time()
                token = True
            else:
                token = False
                elapsed_time.value = 0
        if e.is_set() == True or no_high_five == True:
            return
        else:
            # move robot up so he is on face eight again
            rev_beer_pass_dist = [i * (-1) for i in beer_pass_dist]
            tool_twist_duration = 6
            # highlevel_movements.tool_twist_time(e,base,tool_twist_duration,pose_distance=beer_pass_dist)
            highlevel_movements.tool_twist_time(
                e, base, tool_twist_duration, pose_distance=rev_beer_pass_dist)
            # print("Done")
            #sys.exit()
            # follow a little then high five to person
            t0 = time.time()
            t0_wave = time.time()
            time_to_wave = False
            while e.is_set() == False:
                if time.time(
                ) - t0 > action_time_interval and success_flag_shared.value == True and time_to_wave == False:
                    target_reached_flag = functions_.rotate_to_target(
                        delta_shared[:], target_middle_shared[:],
                        vision_middle_shared[:], w_shared.value,
                        h_shared.value, max_speed, min_speed,
                        target_circle_size, base, base_cyclic)
                    t0 = time.time()
                elif time.time(
                ) - t0 > action_time_interval and success_flag_shared.value == False and time_to_wave == False:
                    base.Stop()
                if time.time() - t0_wave > 5:
                    time_to_wave = True
                    base.Stop()
                    time.sleep(0.5)
                    break
            if time.time() - t0_wave > 5:
                elapsed_time.value = -1
                print("time to high five!")
                #read the joint angles to get the base angle
                pose = highlevel_movements.get_joint_angles(base_cyclic)
                base_angle = pose[0]
                #enter high five position with base rotation
                # high_five(base_angle=base_angle)
                high_five_pos[0] = base_angle
                success &= highlevel_movements.angular_action_movement(
                    e,
                    base,
                    base_cyclic,
                    joint_positions=high_five_pos,
                    speed=speedj)
                torque_tool = functions_.TorqueTool()
                torque_tool.tap_toggle(base_cyclic, torque_threshold=12)
                time.sleep(0.1)
                success &= highlevel_movements.angular_action_movement(
                    e,
                    base,
                    base_cyclic,
                    joint_positions=[
                        base_angle, 352.44, 355.16, 329.09, 1.48, 38.79, 96.13
                    ],
                    speed=speedj)
                success &= highlevel_movements.angular_action_movement(
                    e,
                    base,
                    base_cyclic,
                    joint_positions=high_five_pos,
                    speed=speedj)
                elapsed_time.value = -2
                # transport_position()
                success = True
                success &= highlevel_movements.angular_action_movement(
                    e,
                    base,
                    base_cyclic,
                    joint_positions=pre_transport_pos,
                    speed=speedj)  #pre transport safety pose
                success &= highlevel_movements.angular_action_movement(
                    e,
                    base,
                    base_cyclic,
                    joint_positions=transport_pos,
                    speed=speedj)  #transport pose

        #process finished
        base.Stop()