Example #1
0
        public void add_waypoint(Waypoint new_point)
        {
            //Add waypoint
            waypoints.Add (new_point);

            //Add to grid
            int grid_number = determine_grid(new_point.x_est, new_point.y_est);
            if (!occupied.Contains(grid_number)) {
                occupied.Add(grid_number);
                grid[grid_number].new_grid (new_point.x_est, new_point.y_est);
            }
        }
Example #2
0
        public void add_waypoint(Waypoint new_point)
        {
            //Add waypoint
            waypoints.Add (new_point);

            //Add to grid
            int grid_number = GridCell.determine_grid(new_point.x_est, new_point.y_est);
            if (!occupied.Contains(grid_number)) {
                occupied.Add(grid_number);
            }
            grid[grid_number].add_to_grid(waypoints.Count-1);
        }
Example #3
0
        public static void run_motion_planner(bool whole_path, int iterations, List<GPS> start, List<GPS> end, List<double> bounding_box, List<Obstacle> new_obstacles, int new_grid_width)
        {
            //Reset grid width
            grid_width = new_grid_width;

            grid_number = (int)((width / grid_width) * (height / grid_width));

            auvs = new List<Auv>();
            obstacles = new_obstacles;
            max_length = Double.MaxValue;

            Random rand = new Random();

            Stopwatch sw = Stopwatch.StartNew();
            for (int iteration = 0; iteration < iterations; iteration++)
            {
            newiteration:
                curr_auvs = new List<Auv>();
                //Initialize everything
                init_objects(start, end, bounding_box, new_grid_width);

                //Prob Roadmap
                for (int a = 0; a < curr_auvs.Count; a++)
                {
                    //Start with next waypoint after start
                    int count = 1;
                    int last_point = 0;

                    //Create current line to target
                    List<Point> current_line = new List<Point>();
                    current_line.Add(new Point(curr_auvs[a].get_waypoint(last_point).x_est, curr_auvs[a].get_waypoint(last_point).y_est));
                    current_line.Add(new Point(curr_auvs[a].x_target, curr_auvs[a].y_target));

                    //While there is no path to target, keep adding to tree
                    while (intersect.intersect_obstacles(obstacles, current_line) || !intersect.is_reachable(whole_path, last_point, curr_auvs[a]))
                    {
                        //if (curr_auvs[a].waypoints.Count > 100000)
                        //{
                        //    goto newiteration;
                        //}
                        //Console.WriteLine("Adding again #" + howmany++);
                        double x_est = -1;
                        double y_est = -1;
                        int dt_rand = -1;

                        Waypoint rand_point = new Waypoint();
                        Waypoint new_point = new Waypoint();

                        while (x_est < 0 || x_est > width || y_est < 0 || y_est > height)
                        {
                            int yaw_rand = rand.Next(0, 255);

                            dt_rand = rand.Next(0, MAX_DT);

                            rand_point = curr_auvs[a].pick_waypoint(rand);

                            double prev_t = rand_point.t_step;
                            double t_step = prev_t + dt_rand;

                            new_point = sim_motion(rand_point, yaw_rand, dt_rand, t_step, count);

                            x_est = new_point.x_est;
                            y_est = new_point.y_est;

                        }

                        List<Point> new_line = new List<Point>();
                        new_line.Add(new Point(rand_point.x_est, rand_point.y_est));
                        new_line.Add(new Point(new_point.x_est, new_point.y_est));

                        if (!intersect.intersect_obstacles(obstacles, new_line) && !intersect.intersects_path(whole_path, curr_auvs[a], rand_point.index, new_point.x_est, new_point.y_est, rand_point.t_step, rand_point.t_step + dt_rand))
                        {
                            //Console.WriteLine(grid_width + ", " + new_point.x_est + ", " + new_point.y_est);
                            curr_auvs[a].add_waypoint(new_point);
                            last_point = count;
                            current_line = new List<Point>();
                            current_line.Add(new Point(curr_auvs[a].get_waypoint(last_point).x_est, curr_auvs[a].get_waypoint(last_point).y_est));
                            current_line.Add(new Point(curr_auvs[a].x_target, curr_auvs[a].y_target));
                            count++;
                        }

                    }

                    //Generate output array
                    int current_point = last_point;
                    Waypoint last_waypoint = curr_auvs[a].waypoints[last_point];

                    //Get dt to target
                    double target_dt = Math.Sqrt((last_waypoint.x_est - curr_auvs[a].x_target) * (last_waypoint.x_est - curr_auvs[a].x_target) + (last_waypoint.y_est - curr_auvs[a].y_target) * (last_waypoint.y_est - curr_auvs[a].y_target));
                    double target_theta_est = Math.Atan2((curr_auvs[a].y_target - last_waypoint.y_est), (curr_auvs[a].x_target - last_waypoint.x_est));
                    curr_auvs[a].path_length = (target_dt + last_waypoint.t_step) * VELOCITY;
                    Waypoint target_waypoint = new Waypoint(128, target_dt, target_dt + last_waypoint.t_step, curr_auvs[a].x_target, curr_auvs[a].y_target, target_theta_est, last_point, last_point + 1);
                    curr_auvs[a].output.Add(target_waypoint);
                    curr_auvs[a].output_time.Add(target_waypoint.t_step);

                    while (current_point != -1)
                    {
                        curr_auvs[a].output.Add(curr_auvs[a].waypoints[current_point]);
                        curr_auvs[a].output_time.Add(curr_auvs[a].waypoints[current_point].t_step);
                        current_point = curr_auvs[a].waypoints[current_point].parent;
                    }

                    curr_auvs[a].output.Reverse();
                    curr_auvs[a].output_time.Reverse();
                    //Still inside auv loop
                }

               //Determine Length
                double new_length = 0;
                for (int i = 0; i < curr_auvs.Count; i++)
                {
                    if (i == 0)
                    {
                        new_length = curr_auvs[i].path_length;
                    }
                    else
                    {
                        if (curr_auvs[i].path_length > new_length)
                        {
                            new_length = curr_auvs[i].path_length;
                        }
                    }
                }

                if (new_length < max_length)
                {
                    max_length = new_length;
                    auvs = curr_auvs;
                }

                //Determine number of waypoints planned for tests
                int total_waypoints = 0;
                foreach (Auv curr_auv in curr_auvs)
                {
                    total_waypoints += curr_auv.waypoints.Count;

                }

                Console.Write(total_waypoints + ", ");

            }

            sw.Stop();
            Console.Write(sw.ElapsedMilliseconds.ToString() + ", ");
        }
Example #4
0
        public static Waypoint sim_motion(Waypoint rand_point, double yaw_rand, double dt_rand, double t_step, int count)
        {
            double v = VELOCITY;
            double x_est = 0;
            double y_est = 0;
            double d_theta = 0;
            double theta_est = 0;

            //Console.WriteLine("YAW RAND = " + yaw_rand);
            d_theta = (yaw_rand - 128.0) * MAX_TPS / 128.0;
            theta_est = rand_point.theta_est + d_theta * dt_rand;
            x_est = rand_point.x_est + dt_rand * v * Math.Cos(theta_est * Math.PI / 180);
            y_est = rand_point.y_est + dt_rand * v * Math.Sin(theta_est * Math.PI / 180);

            Waypoint new_waypoint = new Waypoint((int)yaw_rand, dt_rand, t_step, x_est, y_est, theta_est, rand_point.index, count);

            return new_waypoint;
        }