Пример #1
0
            #way_points = astar.planning(pos_int((pos[0],pos[1])), pos_int(nav_pos_new),inter=20)
            if len(way_points) > 1:
                nav_pos = nav_pos_new
                path = np.array(cubic_spline_2d(way_points, interval=4))
                controller.set_path(path)


def pos_int(p):
    return (int(p[0]), int(p[1]))


cv2.namedWindow('test')
cv2.setMouseCallback('test', mouse_click)
while (True):
    car.update()
    print("\rState: " + car.state_str(), "| Goal:", nav_pos, end="\t")
    pos = (car.x, car.y, car.yaw)
    sdata = lmodel.measure(pos)
    plist = EndPoint(pos, [61, -120, 120], sdata)

    # Map
    gm.update_map(pos, [61, -120, 120, 250], sdata)
    mimg = gm.adaptive_get_map_prob()
    mimg = (255 * mimg).astype(np.uint8)
    mimg = cv2.cvtColor(mimg, cv2.COLOR_GRAY2RGB)
    mimg_ = cv2.flip(mimg, 0)
    cv2.imshow("map", mimg_)

    #
    img_ = img.copy()
    for pts in plist:
Пример #2
0
    for i in range(path.shape[0] - 1):
        cv2.line(img_path, (int(path[i, 0]), int(path[i, 1])),
                 (int(path[i + 1, 0]), int(path[i + 1, 1])), (1.0, 0.5, 0.5),
                 1)
    print("\rimg_path 2=")
    print(img_path)
    # Initialize Car
    car = KinematicModel()
    start = (50, 300, 0)
    car.init_state(start)

    controller = PurePursuitControl(kp=1, Lfc=10)
    controller.set_path(path)

    while (True):
        print("\rState: " + car.state_str(), end="\t")
        # ================= Control Algorithm =================
        # PID Longitude Control
        #print("\rpath=")
        #print(path)
        end_dist = np.hypot(path[-1, 0] - car.x, path[-1, 1] - car.y)
        target_v = 40 if end_dist > 265 else 0
        next_a = 0.1 * (target_v - car.v)

        # Pure Pursuit Lateral Control
        state = {
            "x": car.x,
            "y": car.y,
            "yaw": car.yaw,
            "v": car.v,
            "l": car.l