コード例 #1
0
                num_drones=ARGS.num_drones,
                aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                obs=ARGS.obs,
                act=ARGS.act))
    elif ARGS.env == 'meetup':
        register_env(
            temp_env_name, lambda _: MeetupAviary(
                num_drones=ARGS.num_drones,
                aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                obs=ARGS.obs,
                act=ARGS.act))
    elif ARGS.env == 'payloadcoop':
        register_env(
            temp_env_name, lambda _: PayloadCoop(
                num_drones=ARGS.num_drones,
                aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                obs=ARGS.obs,
                act=ARGS.act))
    else:
        print("[ERROR] environment not yet implemented")
        exit()

    #### Unused env to extract the act and obs spaces ##########

    if ARGS.env == 'flock':
        temp_env = FlockAviary(
            num_drones=ARGS.num_drones,
            aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
            obs=ARGS.obs,
            act=ARGS.act)
    elif ARGS.env == 'leaderfollower':
コード例 #2
0
    #### Parameters to recreate the environment ################
    NUM_DRONES =shared_constants.NUM_DRONES
    ACT = ActionType(shared_constants.ACT)
    OBS = ObservationType(shared_constants.OBS)


    #### Initialize Ray Tune ###################################
    ray.shutdown()
    ray.init(ignore_reinit_error=True, include_dashboard=True)

    #### Register the environment ##############################
    temp_env_name = "this-aviary-v0" 
    register_env(temp_env_name, lambda _: PayloadCoop(num_drones=NUM_DRONES,
                                                        aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                                                        obs=OBS,
                                                        act=ACT
                                                        ))
    temp_env = PayloadCoop(num_drones=NUM_DRONES,
                                aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                                obs=OBS,
                                act=ACT,
                                )
    action_space = temp_env.action_space[0]
    observation_space = temp_env.observation_space[0]

    obs_space_dict = {
        "agent_1": observation_space,
        "agent_2": observation_space,
    }
    act_space_dict = {
コード例 #3
0
                num_drones=NUM_DRONES,
                aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                obs=OBS,
                act=ACT))
    elif ARGS.exp.split("-")[1] == 'meetup':
        register_env(
            temp_env_name, lambda _: MeetupAviary(
                num_drones=NUM_DRONES,
                aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                obs=OBS,
                act=ACT))
    elif ARGS.exp.split("-")[1] == 'payloadcoop':
        register_env(
            temp_env_name, lambda _: PayloadCoop(
                num_drones=NUM_DRONES,
                aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
                obs=OBS,
                act=ACT))
    else:
        print("[ERROR] environment not yet implemented")
        exit()

    #### Unused env to extract the act and obs spaces ##########
    if ARGS.exp.split("-")[1] == 'flock':
        temp_env = FlockAviary(
            num_drones=NUM_DRONES,
            aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
            obs=OBS,
            act=ACT)
    elif ARGS.exp.split("-")[1] == 'leaderfollower':
        temp_env = LeaderFollowerAviary(
コード例 #4
0
    #### Parameters to recreate the environment ################
    NUM_DRONES = shared_constants.NUM_DRONES
    ACT = ActionType(shared_constants.ACT)
    OBS = ObservationType(shared_constants.OBS)

    #### Initialize Ray Tune ###################################
    ray.shutdown()
    ray.init(ignore_reinit_error=True, include_dashboard=True)

    #### Register the environment ##############################
    temp_env_name = "this-aviary-v0"
    register_env(
        temp_env_name, lambda _: PayloadCoop(num_drones=ARGS.num_drones,
                                             aggregate_phy_steps=
                                             shared_constants.AGGR_PHY_STEPS,
                                             obs=ARGS.obs,
                                             act=ARGS.act))
    temp_env = PayloadCoop(
        num_drones=ARGS.num_drones,
        aggregate_phy_steps=shared_constants.AGGR_PHY_STEPS,
        obs=ARGS.obs,
        act=ARGS.act,
    )
    observer_space = Dict({
        "own_obs": temp_env.observation_space[0],
        "opponent_obs": temp_env.observation_space[0],
        "opponent_action": temp_env.action_space[0],
    })
    action_space = temp_env.action_space[0]
    OWN_OBS_VEC_SIZE = observer_space["own_obs"].shape[0]
コード例 #5
0
    #### Initialize the simulation #############################
    # R = 0.3
    # INIT_XYZS = np.array([[-0.2, 0, 0.5], [0.2, 0, 0.5]])
    # INIT_XYZS = np.array([[R*np.cos((i/6)*2*np.pi+np.pi/2), R*np.sin((i/6)*2*np.pi+np.pi/2)-R, 0.5] for i in range(ARGS.num_drones)])
    INIT_XYZS = None
    INIT_RPYS = np.array([[0, 0, i * (np.pi / 2) / ARGS.num_drones]
                          for i in range(ARGS.num_drones)])
    AGGR_PHY_STEPS = int(ARGS.simulation_freq_hz /
                         ARGS.control_freq_hz) if ARGS.aggregate else 1

    env = PayloadCoop(dest_point=shared_constants.DEST_POINT,
                      drone_model=ARGS.drone,
                      num_drones=ARGS.num_drones,
                      initial_xyzs=INIT_XYZS,
                      initial_rpys=INIT_RPYS,
                      physics=ARGS.physics,
                      neighbourhood_radius=10,
                      freq=ARGS.simulation_freq_hz,
                      aggregate_phy_steps=AGGR_PHY_STEPS,
                      gui=ARGS.gui,
                      episode_len_sec=ARGS.duration_sec)

    #### Obtain the PyBullet Client ID from the environment ####
    PYB_CLIENT = env.getPyBulletClient()

    #### Initialize the logger #################################
    logger = Logger(logging_freq_hz=int(ARGS.simulation_freq_hz /
                                        AGGR_PHY_STEPS),
                    num_drones=ARGS.num_drones)

    #### Run the simulation ####################################