public void Create()
        {
            int   no_of_grids           = 2;
            int   grid_type             = metagrid.TYPE_SIMPLE;
            int   dimension_mm          = 3000;
            int   dimension_vertical_mm = 2000;
            int   cellSize_mm           = 32;
            int   localisationRadius_mm = 2000;
            int   maxMappingRange_mm    = 2000;
            float vacancyWeighting      = 0.5f;

            metagridBuffer buffer =
                new metagridBuffer(
                    no_of_grids,
                    grid_type,
                    dimension_mm,
                    dimension_vertical_mm,
                    cellSize_mm,
                    localisationRadius_mm,
                    maxMappingRange_mm,
                    vacancyWeighting);

            Assert.AreNotEqual(null, buffer);
            Assert.AreNotEqual(null, buffer.buffer);
            Assert.AreEqual(2, buffer.buffer.Length);
            Assert.AreNotEqual(null, buffer.buffer[0]);
            Assert.AreNotEqual(null, buffer.buffer[1]);

            buffer.Reset();
        }
Example #2
0
        public void CreateSensorModels(
            metagridBuffer buf)
        {
            List <int> cell_sizes = buf.GetCellSizes();

            sensormodel = new stereoModel[image_width.Length][];
            for (int stereo_cam = 0; stereo_cam < image_width.Length; stereo_cam++)
            {
                sensormodel[stereo_cam] = new stereoModel[cell_sizes.Count];
            }

            for (int stereo_cam = 0; stereo_cam < image_width.Length; stereo_cam++)
            {
                for (int grid_level = 0; grid_level < cell_sizes.Count; grid_level++)
                {
                    if (stereo_cam > 0)
                    {
                        if (image_width[stereo_cam - 1] ==
                            image_width[stereo_cam])
                        {
                            sensormodel[stereo_cam][grid_level] = sensormodel[stereo_cam - 1][grid_level];
                        }
                    }

                    if (sensormodel[stereo_cam][grid_level] == null)
                    {
                        sensormodel[stereo_cam][grid_level] = new stereoModel();
                        sensormodel[stereo_cam][grid_level].createLookupTable(
                            cell_sizes[grid_level],
                            image_width[stereo_cam],
                            image_height[stereo_cam]);
                    }
                }
            }
        }
Example #3
0
        public steersman(
            int body_width_mm,
            int body_length_mm,
            int body_height_mm,
            int centre_of_rotation_x,
            int centre_of_rotation_y,
            int centre_of_rotation_z,
            int head_centroid_x,
            int head_centroid_y,
            int head_centroid_z,
            string sensormodels_filename,
            int no_of_stereo_cameras,
            float baseline_mm,
            float dist_from_centre_of_tilt_mm,
            int image_width,
            int image_height,
            float FOV_degrees,
            float head_diameter_mm,
            float default_head_orientation_degrees,
            int no_of_grid_levels,
            int dimension_mm,
            int dimension_vertical_mm,
            int cellSize_mm)
        {
            rnd = new Random(0);
            int   grid_type             = metagrid.TYPE_SIMPLE;
            int   localisationRadius_mm = dimension_mm * 50 / 100;
            int   maxMappingRange_mm    = dimension_mm * 50 / 100;
            float vacancyWeighting      = 0.5f;

            buffer = new metagridBuffer(
                no_of_grid_levels,
                grid_type,
                dimension_mm,
                dimension_vertical_mm,
                cellSize_mm,
                localisationRadius_mm,
                maxMappingRange_mm,
                vacancyWeighting);

            robot_geometry = new robotGeometry();
            robot_geometry.SetBodyDimensions(body_width_mm, body_length_mm, body_height_mm);
            robot_geometry.SetCentreOfRotation(centre_of_rotation_x, centre_of_rotation_y, centre_of_rotation_z);
            robot_geometry.SetHeadPosition(head_centroid_x, head_centroid_y, head_centroid_z);
            robot_geometry.CreateStereoCameras(
                no_of_stereo_cameras,
                baseline_mm,
                dist_from_centre_of_tilt_mm,
                image_width,
                image_height,
                FOV_degrees,
                head_diameter_mm,
                default_head_orientation_degrees);

            robot_geometry.CreateSensorModels(buffer);
        }
        public void SaveAndLoad()
        {
            string filename              = "tests_metagridbuffer_SaveAndLoad.xml";
            int    no_of_grids           = 2;
            int    grid_type             = metagrid.TYPE_SIMPLE;
            int    dimension_mm          = 3000;
            int    dimension_vertical_mm = 2000;
            int    cellSize_mm           = 32;
            int    localisationRadius_mm = 2000;
            int    maxMappingRange_mm    = 2000;
            float  vacancyWeighting      = 0.5f;

            metagridBuffer buffer1 =
                new metagridBuffer(
                    no_of_grids,
                    grid_type,
                    dimension_mm,
                    dimension_vertical_mm,
                    cellSize_mm,
                    localisationRadius_mm,
                    maxMappingRange_mm,
                    vacancyWeighting);

            buffer1.Save(filename);

            metagridBuffer buffer2 = new metagridBuffer();

            buffer2.Load(filename);

            Assert.AreEqual(buffer1.no_of_grid_levels, buffer2.no_of_grid_levels);
            Assert.AreEqual(buffer1.grid_type, buffer2.grid_type);
            Assert.AreEqual(buffer1.dimension_mm, buffer2.dimension_mm);
            Assert.AreEqual(buffer1.dimension_vertical_mm, buffer2.dimension_vertical_mm);
            Assert.AreEqual(buffer1.cellSize_mm, buffer2.cellSize_mm);
            Assert.AreEqual(buffer1.localisationRadius_mm, buffer2.localisationRadius_mm);
            Assert.AreEqual(buffer1.maxMappingRange_mm, buffer2.maxMappingRange_mm);
            Assert.AreEqual(buffer1.vacancyWeighting, buffer2.vacancyWeighting);
        }
        public void LocaliseAlongPath()
        {
            // systematic bias
            float bias_x_mm = -200;
            float bias_y_mm = 0;

            // number of stereo cameras on the robot's head
            int no_of_stereo_cameras = 2;

            // diameter of the robot's head
            float head_diameter_mm = 100;

            // number of stereo features per step during mapping
            int no_of_mapping_stereo_features = 300;

            // number of stereo features observed per localisation step
            int no_of_localisation_stereo_features = 100;

            string filename                  = "localise_along_path.dat";
            float  path_length_mm            = 20000;
            float  start_orientation         = 0;
            float  end_orientation           = 0; // 90 * (float)Math.PI / 180.0f;
            float  distance_between_poses_mm = 100;
            float  disparity                 = 15;

            string overall_map_filename = "overall_map.jpg";

            byte[] overall_map_img          = null;
            int    overall_img_width        = 640;
            int    overall_img_height       = 480;
            int    overall_map_dimension_mm = 0;
            int    overall_map_centre_x_mm  = 0;
            int    overall_map_centre_y_mm  = 0;

            string[] str = filename.Split('.');

            List <OdometryData> path = null;

            SavePath(
                filename,
                path_length_mm,
                start_orientation,
                end_orientation,
                distance_between_poses_mm,
                disparity,
                no_of_mapping_stereo_features,
                no_of_stereo_cameras,
                ref path);

            Assert.AreEqual(true, File.Exists(filename));
            Assert.AreEqual(true, File.Exists(str[0] + "_disparities_index.dat"));
            Assert.AreEqual(true, File.Exists(str[0] + "_disparities.dat"));

            int   no_of_grids           = 1;
            int   grid_type             = metagrid.TYPE_SIMPLE;
            int   dimension_mm          = 8000;
            int   dimension_vertical_mm = 2000;
            int   cellSize_mm           = 50;
            int   localisationRadius_mm = 8000;
            int   maxMappingRange_mm    = 10000;
            float vacancyWeighting      = 0.5f;

            metagridBuffer buffer =
                new metagridBuffer(
                    no_of_grids,
                    grid_type,
                    dimension_mm,
                    dimension_vertical_mm,
                    cellSize_mm,
                    localisationRadius_mm,
                    maxMappingRange_mm,
                    vacancyWeighting);

            buffer.LoadPath(
                filename,
                str[0] + "_disparities_index.dat",
                str[0] + "_disparities.dat",
                ref overall_map_dimension_mm,
                ref overall_map_centre_x_mm,
                ref overall_map_centre_y_mm);

            int img_width  = 640;
            int img_height = 640;

            byte[] img = new byte[img_width * img_height * 3];
            Bitmap bmp = new Bitmap(img_width, img_height, System.Drawing.Imaging.PixelFormat.Format24bppRgb);

            buffer.ShowPath(img, img_width, img_height, true, true);
            BitmapArrayConversions.updatebitmap_unsafe(img, bmp);
            bmp.Save("localise_along_path.jpg", System.Drawing.Imaging.ImageFormat.Jpeg);

            robotGeometry geom = new robotGeometry();

            geom.CreateStereoCameras(
                no_of_stereo_cameras, 120, 0,
                320, 240,
                65,
                head_diameter_mm,
                0);

            geom.CreateSensorModels(buffer);

            Random rnd               = new Random(0);
            pos3D  pose_offset       = null;
            bool   buffer_transition = false;

            float[][] stereo_features = new float[no_of_stereo_cameras][];
            byte[][,] stereo_features_colour = new byte[no_of_stereo_cameras][, ];
            float[][] stereo_features_uncertainties = new float[no_of_stereo_cameras][];
            for (int i = 0; i < no_of_stereo_cameras; i++)
            {
                stereo_features_uncertainties[i] = new float[no_of_localisation_stereo_features];
                for (int j = 0; j < no_of_localisation_stereo_features; j++)
                {
                    stereo_features_uncertainties[i][j] = 1;
                }
            }

            float average_offset_x_mm          = 0;
            float average_offset_y_mm          = 0;
            List <OdometryData> estimated_path = new List <OdometryData>();

            int no_of_localisation_failures = 0;

            for (int i = 0; i < path.Count - 1; i += 5)
            {
                string debug_mapping_filename = "localise_along_path_map_" + i.ToString() + ".jpg";

                OdometryData p0 = path[i];
                OdometryData p1 = path[i + 1];

                // create an intermediate pose
                for (int cam = 0; cam < no_of_stereo_cameras; cam++)
                {
                    geom.pose[cam].x   = p0.x + ((p1.x - p0.x) / 2) + bias_x_mm;
                    geom.pose[cam].y   = p0.y + ((p1.y - p0.y) / 2) + bias_y_mm;
                    geom.pose[cam].z   = 0;
                    geom.pose[cam].pan = p0.orientation + ((p1.orientation - p0.orientation) / 2);

                    // create stereo features
                    int ctr = 0;
                    stereo_features[cam]        = new float[no_of_localisation_stereo_features * 3];
                    stereo_features_colour[cam] = new byte[no_of_localisation_stereo_features, 3];
                    for (int f = 0; f < no_of_localisation_stereo_features; f += 5)
                    {
                        if (f < no_of_localisation_stereo_features / 2)
                        {
                            stereo_features[cam][ctr++] = 20;
                            stereo_features[cam][ctr++] = rnd.Next(239);
                        }
                        else
                        {
                            stereo_features[cam][ctr++] = geom.image_width[cam] - 20;
                            stereo_features[cam][ctr++] = rnd.Next(239);
                        }
                        stereo_features[cam][ctr++] = disparity;
                    }
                }

                float matching_score = buffer.Localise(
                    geom,
                    stereo_features,
                    stereo_features_colour,
                    stereo_features_uncertainties,
                    rnd,
                    ref pose_offset,
                    ref buffer_transition,
                    debug_mapping_filename,
                    bias_x_mm, bias_y_mm,
                    overall_map_filename,
                    ref overall_map_img,
                    overall_img_width,
                    overall_img_height,
                    overall_map_dimension_mm,
                    overall_map_centre_x_mm,
                    overall_map_centre_y_mm);

                if (matching_score != occupancygridBase.NO_OCCUPANCY_EVIDENCE)
                {
                    Console.WriteLine("pose_offset (mm): " + pose_offset.x.ToString() + ", " + pose_offset.y.ToString() + ", " + pose_offset.pan.ToString());
                    OdometryData estimated_pose = new OdometryData();
                    estimated_pose.x           = geom.pose[0].x + pose_offset.x;
                    estimated_pose.y           = geom.pose[0].y + pose_offset.y;
                    estimated_pose.orientation = geom.pose[0].pan + pose_offset.pan;
                    estimated_path.Add(estimated_pose);
                    average_offset_x_mm += pose_offset.x;
                    average_offset_y_mm += pose_offset.y;
                }
                else
                {
                    // fail!
                    no_of_localisation_failures++;
                    Console.WriteLine("Localisation failure");
                }
            }

            buffer.ShowPath(img, img_width, img_height, true, true);
            BitmapArrayConversions.updatebitmap_unsafe(img, bmp);
            bmp.Save("localisations_along_path.jpg", System.Drawing.Imaging.ImageFormat.Jpeg);

            average_offset_x_mm /= estimated_path.Count;
            average_offset_y_mm /= estimated_path.Count;
            Console.WriteLine("Average offsets: " + average_offset_x_mm.ToString() + ", " + average_offset_y_mm.ToString());

            float diff_x_mm = Math.Abs(average_offset_x_mm - bias_x_mm);
            float diff_y_mm = Math.Abs(average_offset_y_mm - bias_y_mm);

            Assert.Less(diff_x_mm, cellSize_mm * 3 / 2, "x bias not detected");
            Assert.Less(diff_y_mm, cellSize_mm * 3 / 2, "y bias not detected");

            if (no_of_localisation_failures > 0)
            {
                Console.WriteLine("Localisation failures: " + no_of_localisation_failures.ToString());
            }
            else
            {
                Console.WriteLine("No localisation failures!");
            }
            Assert.Less(no_of_localisation_failures, 4, "Too many localisation failures");
        }
        public void LoadPath()
        {
            string filename                  = "load_path.dat";
            float  path_length_mm            = 10000;
            float  start_orientation         = 0;
            float  end_orientation           = 90 * (float)Math.PI / 180.0f;
            float  distance_between_poses_mm = 100;
            float  disparity                 = 15;
            int    no_of_stereo_cameras      = 1;

            string[] str = filename.Split('.');

            List <OdometryData> path = null;

            SavePath(
                filename,
                path_length_mm,
                start_orientation,
                end_orientation,
                distance_between_poses_mm,
                disparity,
                300,
                no_of_stereo_cameras,
                ref path);

            Assert.AreEqual(true, File.Exists(filename));
            Assert.AreEqual(true, File.Exists(str[0] + "_disparities_index.dat"));
            Assert.AreEqual(true, File.Exists(str[0] + "_disparities.dat"));

            int   no_of_grids           = 2;
            int   grid_type             = metagrid.TYPE_SIMPLE;
            int   dimension_mm          = 3000;
            int   dimension_vertical_mm = 2000;
            int   cellSize_mm           = 32;
            int   localisationRadius_mm = 2000;
            int   maxMappingRange_mm    = 2000;
            float vacancyWeighting      = 0.5f;

            metagridBuffer buffer =
                new metagridBuffer(
                    no_of_grids,
                    grid_type,
                    dimension_mm,
                    dimension_vertical_mm,
                    cellSize_mm,
                    localisationRadius_mm,
                    maxMappingRange_mm,
                    vacancyWeighting);

            int overall_map_dimension_mm = 0;
            int overall_map_centre_x_mm  = 0;
            int overall_map_centre_y_mm  = 0;

            buffer.LoadPath(
                filename,
                str[0] + "_disparities_index.dat",
                str[0] + "_disparities.dat",
                ref overall_map_dimension_mm,
                ref overall_map_centre_x_mm,
                ref overall_map_centre_y_mm);

            int img_width  = 640;
            int img_height = 480;

            byte[] img = new byte[img_width * img_height * 3];
            buffer.ShowPath(img, img_width, img_height, true, true);
            Bitmap bmp = new Bitmap(img_width, img_height, System.Drawing.Imaging.PixelFormat.Format24bppRgb);

            BitmapArrayConversions.updatebitmap_unsafe(img, bmp);
            bmp.Save("load_path.jpg", System.Drawing.Imaging.ImageFormat.Jpeg);
        }
Example #7
0
        /// <summary>
        /// parse an xml node
        /// </summary>
        /// <param name="xnod"></param>
        /// <param name="level"></param>
        public void LoadFromXml(
            XmlNode xnod, int level)
        {
            XmlNode xnodWorking;

            if (xnod.Name == "SteersmanGeometry")
            {
                int cameraIndex = -1;
                if (robot_geometry == null)
                {
                    robot_geometry = new robotGeometry();
                }
                robot_geometry.LoadFromXml(xnod, level + 1, ref cameraIndex);
            }

            if (xnod.Name == "SteersmanBuffer")
            {
                if (buffer == null)
                {
                    buffer = new metagridBuffer();
                }
                int   no_of_grid_levels     = 0;
                int   grid_type             = 0;
                int   dimension_mm          = 0;
                int   dimension_vertical_mm = 0;
                int   cellSize_mm           = 0;
                int   localisationRadius_mm = 0;
                int   maxMappingRange_mm    = 0;
                float vacancyWeighting      = 0;
                buffer.LoadFromXml(xnod, level + 1,
                                   ref no_of_grid_levels,
                                   ref grid_type,
                                   ref dimension_mm,
                                   ref dimension_vertical_mm,
                                   ref cellSize_mm,
                                   ref localisationRadius_mm,
                                   ref maxMappingRange_mm,
                                   ref vacancyWeighting
                                   );

                buffer.Initialise(
                    no_of_grid_levels,
                    grid_type,
                    dimension_mm,
                    dimension_vertical_mm,
                    cellSize_mm,
                    localisationRadius_mm,
                    maxMappingRange_mm,
                    vacancyWeighting);
            }

            if (xnod.Name == "SteersmanSensorModels")
            {
                if (robot_geometry == null)
                {
                    robot_geometry = new robotGeometry();
                }
                int no_of_stereo_cameras = 0;
                int no_of_grid_levels    = 0;
                int camera_index         = 0;
                int grid_level           = 0;
                robot_geometry.LoadFromXmlSensorModels(
                    xnod, level + 1,
                    ref no_of_stereo_cameras,
                    ref no_of_grid_levels,
                    ref camera_index,
                    ref grid_level);
            }

            // call recursively on all children of the current node
            if (xnod.HasChildNodes)
            {
                xnodWorking = xnod.FirstChild;
                while (xnodWorking != null)
                {
                    LoadFromXml(xnodWorking, level + 1);
                    xnodWorking = xnodWorking.NextSibling;
                }
            }
        }