00001 #include <hector_costmap/hector_costmap.h>
00002
00003
00004 #define MAP_IDX(sx, i, j) ((sx) * (j) + (i))
00005
00006 #define OCCUPIED_CELL 100
00007 #define FREE_CELL 0
00008 #define UNKNOWN_CELL -1
00009
00010 #define GRID_MAP 1
00011 #define CLOUD_MAP 2
00012 #define ELEVATION_MAP 4
00013
00014 #define USE_GRID_MAP_ONLY GRID_MAP
00015 #define USE_ELEVATION_MAP_ONLY ELEVATION_MAP
00016 #define USE_GRID_AND_ELEVATION_MAP (GRID_MAP | ELEVATION_MAP)
00017 #define USE_GRID_AND_CLOUD_MAP (GRID_MAP | CLOUD_MAP)
00018 #define USE_GRID_AND_ELEVATION_MAP_AND_CLOUD_MAP (GRID_MAP | CLOUD_MAP | ELEVATION_MAP)
00019
00020
00021 CostMapCalculation::CostMapCalculation() : nHandle(), pnHandle("~")
00022 {
00023 int width, height;
00024 double grid_res_xy;
00025
00026 pnHandle.param("elevation_resolution", grid_res_z, 0.01);
00027
00028 pnHandle.param("max_grid_size_x", width, 1024);
00029 cost_map.info.width = width;
00030 pnHandle.param("max_grid_size_y", height, 1024);
00031 cost_map.info.height = height;
00032 pnHandle.param("map_resolution", grid_res_xy, 0.05);
00033 cost_map.info.resolution = grid_res_xy;
00034 pnHandle.param("origin_x",cost_map.info.origin.position.x, -(double)cost_map.info.width*(double)cost_map.info.resolution/2.0);
00035 pnHandle.param("origin_y",cost_map.info.origin.position.y, -(double)cost_map.info.height*(double)cost_map.info.resolution/2.0);
00036 pnHandle.param("origin_z",cost_map.info.origin.position.z, 0.0);
00037 pnHandle.param("orientation_x",cost_map.info.origin.orientation.x, 0.0);
00038 pnHandle.param("orientation_y",cost_map.info.origin.orientation.y, 0.0);
00039 pnHandle.param("orientation_z",cost_map.info.origin.orientation.z, 0.0);
00040 pnHandle.param("orientation_w",cost_map.info.origin.orientation.w, 1.0);
00041
00042 pnHandle.param("initial_free_cells_radius", initial_free_cells_radius, 0.30);
00043 pnHandle.param("update_radius", update_radius_world, 4.0);
00044 pnHandle.param("max_delta_elevation", max_delta_elevation, 0.08);
00045
00046 pnHandle.param("map_frame_id", map_frame_id,std::string("map"));
00047 pnHandle.param("local_transform_frame_id", local_transform_frame_id,std::string("base_footprint"));
00048 pnHandle.param("cost_map_topic", cost_map_topic, std::string("cost_map"));
00049 pnHandle.param("elevation_map_topic", elevation_map_topic, std::string("elevation_map_local"));
00050 pnHandle.param("grid_map_topic", grid_map_topic, std::string("scanmatcher_map"));
00051
00052 pnHandle.param("use_elevation_map", use_elevation_map, true);
00053 pnHandle.param("use_grid_map", use_grid_map, true);
00054 pnHandle.param("use_cloud_map", use_cloud_map, false);
00055 pnHandle.param("allow_elevation_map_to_clear_occupied_cells", allow_elevation_map_to_clear_occupied_cells, true);
00056 pnHandle.param("max_clear_size", max_clear_size, 2);
00057
00058 pnHandle.param("point_cloud_topic", point_cloud_topic,std::string("openni/depth/points"));
00059 pnHandle.param("slize_min_height", slize_min_height, 0.30);
00060 pnHandle.param("slize_max_height", slize_min_height, 0.35);
00061
00062 pnHandle.param("costmap_pub_freq", costmap_pub_freq, 4.0);
00063
00064 pnHandle.param("sys_msg_topic", sys_msg_topic, std::string("syscommand"));
00065
00066 cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00067 elevation_cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00068 cloud_cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00069
00070 world_map_transform.setTransforms(cost_map.info);
00071
00072
00073 min_index(0) = cost_map.info.width/2-floor(initial_free_cells_radius/cost_map.info.resolution);
00074 min_index(1) = cost_map.info.height/2-floor(initial_free_cells_radius/cost_map.info.resolution);
00075 max_index(0) = cost_map.info.width/2+floor(initial_free_cells_radius/cost_map.info.resolution);
00076 max_index(1) = cost_map.info.height/2+floor(initial_free_cells_radius/cost_map.info.resolution);
00077 for (int v = min_index(1); v < max_index(1); ++v)
00078 for (int u = min_index(0); u < max_index(0); ++u)
00079 cost_map.data[MAP_IDX(cost_map.info.width, u, v)] = FREE_CELL;
00080
00081 pub_cost_map = nHandle.advertise<nav_msgs::OccupancyGrid>(cost_map_topic, 1, true);
00082
00083 received_elevation_map = false;
00084 received_grid_map = false;
00085 received_point_cloud = false;
00086
00087 sliced_cloud.reset(new pcl::PointCloud<pcl::PointXYZ>);
00088
00089 if(use_elevation_map)
00090 sub_elevation_map = nHandle.subscribe(elevation_map_topic,10,&CostMapCalculation::callbackElevationMap,this);
00091
00092 if(use_grid_map)
00093 sub_grid_map = nHandle.subscribe(grid_map_topic,10,&CostMapCalculation::callbackGridMap,this);
00094
00095 if(use_cloud_map)
00096 sub_point_cloud = nHandle.subscribe(point_cloud_topic,10,&CostMapCalculation::callbackPointCloud,this);
00097
00098 sub_map_info = nHandle.subscribe("map_metadata",1,&CostMapCalculation::updateMapParamsCallback,this);
00099
00100 sub_sysMessage = nHandle.subscribe(sys_msg_topic, 10, &CostMapCalculation::sysMessageCallback, this);
00101 dyn_rec_server_.setCallback(boost::bind(&CostMapCalculation::dynRecParamCallback, this, _1, _2));
00102
00103 timer = pnHandle.createTimer(ros::Duration(1.0/costmap_pub_freq), &CostMapCalculation::timerCallback,this);
00104
00105 ROS_INFO("HectorCM: is up and running.");
00106
00107 pub_cloud_slice = pnHandle.advertise<sensor_msgs::PointCloud2>("cloud_slice",1,true);
00108
00109 ros::spin();
00110 }
00111
00112
00113 CostMapCalculation::~CostMapCalculation()
00114 {
00115 ROS_INFO("HectorCM: Shutting down!");
00116 }
00117
00118
00119 void CostMapCalculation::sysMessageCallback(const std_msgs::String& string)
00120 {
00121 ROS_DEBUG("HectorCM: sysMsgCallback, msg contents: %s", string.data.c_str());
00122
00123 if (string.data == "reset")
00124 {
00125 ROS_INFO("HectorCM: reset");
00126
00127
00128 cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00129 elevation_cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00130 cloud_cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00131
00132
00133 min_index(0) = cost_map.info.width/2-floor(initial_free_cells_radius/cost_map.info.resolution);
00134 min_index(1) = cost_map.info.height/2-floor(initial_free_cells_radius/cost_map.info.resolution);
00135 max_index(0) = cost_map.info.width/2+floor(initial_free_cells_radius/cost_map.info.resolution);
00136 max_index(1) = cost_map.info.height/2+floor(initial_free_cells_radius/cost_map.info.resolution);
00137 for (int v = min_index(1); v < max_index(1); ++v)
00138 for (int u = min_index(0); u < max_index(0); ++u)
00139 cost_map.data[MAP_IDX(cost_map.info.width, u, v)] = FREE_CELL;
00140
00141 received_elevation_map = false;
00142 received_grid_map = false;
00143 received_point_cloud = false;
00144 }
00145 }
00146
00147
00148 void CostMapCalculation::dynRecParamCallback(hector_costmap::CostMapCalculationConfig &config, uint32_t level)
00149 {
00150 max_delta_elevation = config.max_delta_elevation;
00151 allow_elevation_map_to_clear_occupied_cells = config.allow_elevation_map_to_clear_occupied_cells;
00152 max_clear_size = config.max_clear_size;
00153 slize_min_height = config.slize_min_height;
00154 slize_max_height = config.slize_max_height;
00155 update_radius_world = config.update_radius_world;
00156 }
00157
00158
00159 void CostMapCalculation::updateMapParamsCallback(const nav_msgs::MapMetaData& map_meta_data)
00160 {
00161 ROS_DEBUG("HectorCM: received new map meta data -> overwrite old parameters");
00162
00163
00164 if (cost_map.info.width == map_meta_data.width &&
00165 cost_map.info.height == map_meta_data.height &&
00166 cost_map.info.resolution == map_meta_data.resolution &&
00167 cost_map.info.origin.position.x == map_meta_data.origin.position.x &&
00168 cost_map.info.origin.position.y == map_meta_data.origin.position.y &&
00169 cost_map.info.origin.position.z == map_meta_data.origin.position.z &&
00170 cost_map.info.origin.orientation.x == map_meta_data.origin.orientation.x &&
00171 cost_map.info.origin.orientation.y == map_meta_data.origin.orientation.y &&
00172 cost_map.info.origin.orientation.z == map_meta_data.origin.orientation.z &&
00173 cost_map.info.origin.orientation.w == map_meta_data.origin.orientation.w) {
00174 return;
00175 }
00176
00177
00178 cost_map.info.width = map_meta_data.width;
00179 cost_map.info.height = map_meta_data.height;
00180 cost_map.info.resolution = map_meta_data.resolution;
00181
00182 cost_map.info.origin.position.x = map_meta_data.origin.position.x;
00183 cost_map.info.origin.position.y = map_meta_data.origin.position.y;
00184 cost_map.info.origin.position.z = map_meta_data.origin.position.z;
00185
00186 cost_map.info.origin.orientation.x = map_meta_data.origin.orientation.x;
00187 cost_map.info.origin.orientation.y = map_meta_data.origin.orientation.y;
00188 cost_map.info.origin.orientation.z = map_meta_data.origin.orientation.z;
00189 cost_map.info.origin.orientation.w = map_meta_data.origin.orientation.w;
00190
00191 world_map_transform.setTransforms(cost_map.info);
00192
00193
00194 cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00195 elevation_cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00196 cloud_cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00197
00198
00199 min_index(0) = cost_map.info.width/2-floor(initial_free_cells_radius/cost_map.info.resolution);
00200 min_index(1) = cost_map.info.height/2-floor(initial_free_cells_radius/cost_map.info.resolution);
00201 max_index(0) = cost_map.info.width/2+floor(initial_free_cells_radius/cost_map.info.resolution);
00202 max_index(1) = cost_map.info.height/2+floor(initial_free_cells_radius/cost_map.info.resolution);
00203 for (int v = min_index(1); v < max_index(1); ++v)
00204 for (int u = min_index(0); u < max_index(0); ++u)
00205 cost_map.data[MAP_IDX(cost_map.info.width, u, v)] = FREE_CELL;
00206
00207
00208 received_elevation_map = false;
00209 received_grid_map = false;
00210 use_cloud_map = false;
00211 }
00212
00213 void CostMapCalculation::timerCallback(const ros::TimerEvent& event)
00214 {
00215 ROS_DEBUG("HectorCM: published a new costmap");
00216
00217
00218 cost_map.header.stamp = ros::Time::now();
00219 cost_map.header.frame_id = map_frame_id;
00220
00221 pub_cost_map.publish(cost_map);
00222 }
00223
00224
00225 void CostMapCalculation::callbackElevationMap(const hector_elevation_msgs::ElevationGridConstPtr& elevation_map_msg)
00226 {
00227 ROS_DEBUG("HectorCM: received new elevation map");
00228
00229
00230 if((int)(1000*elevation_map_msg->info.resolution_xy) != (int)(1000*cost_map.info.resolution) &&
00231 elevation_map_msg->info.height != cost_map.info.height &&
00232 elevation_map_msg->info.width != cost_map.info.width)
00233 {
00234 ROS_ERROR("HectorCM: elevation map resolution and or size incorrect!");
00235 return;
00236 }
00237
00238
00239 elevation_map_ = cv::Mat(elevation_map_msg->info.height, elevation_map_msg->info.width, CV_16S, const_cast<int16_t*>(&elevation_map_msg->data[0]), 2*(size_t)elevation_map_msg->info.width);
00240
00241
00242 elevation_zero_level = elevation_map_msg->info.zero_elevation;
00243
00244
00245 if(!computeWindowIndices(elevation_map_msg->header.stamp, update_radius_world))
00246 return;
00247
00248
00249 int filtered_cell, filtered_cell_x, filtered_cell_y;
00250 for (int v = min_index(1); v < max_index(1); ++v)
00251 {
00252 for (int u = min_index(0); u < max_index(0); ++u)
00253 {
00254
00255 unsigned int cost_map_index = MAP_IDX(cost_map.info.width, u, v);
00256
00257
00258 if(elevation_map_.at<int16_t>(v+1,u) == (-elevation_zero_level) ||
00259 elevation_map_.at<int16_t>(v-1,u) == (-elevation_zero_level) ||
00260 elevation_map_.at<int16_t>(v,u+1) == (-elevation_zero_level) ||
00261 elevation_map_.at<int16_t>(v,u-1) == (-elevation_zero_level))
00262 continue;
00263
00264
00265 filtered_cell_y = abs(elevation_map_.at<int16_t>(v,u-1) - elevation_map_.at<int16_t>(v,u+1));
00266 filtered_cell_x = abs(elevation_map_.at<int16_t>(v-1,u) - elevation_map_.at<int16_t>(v+1,u));
00267
00268
00269 if(filtered_cell_x > filtered_cell_y)
00270 filtered_cell = filtered_cell_x;
00271 else
00272 filtered_cell = filtered_cell_y;
00273
00274
00275 if(filtered_cell > max_delta_elevation/grid_res_z)
00276 {
00277
00278 elevation_cost_map.data[cost_map_index] = OCCUPIED_CELL;
00279 }
00280 else
00281 {
00282
00283 elevation_cost_map.data[cost_map_index] = FREE_CELL;
00284 }
00285 }
00286 }
00287
00288
00289 received_elevation_map = true;
00290
00291
00292 if(received_grid_map)
00293 {
00294 if(received_point_cloud)
00295 {
00296 calculateCostMap(USE_GRID_AND_ELEVATION_MAP_AND_CLOUD_MAP);
00297 }
00298 else
00299 {
00300 calculateCostMap(USE_GRID_AND_ELEVATION_MAP);
00301 }
00302 }
00303 else
00304 {
00305 calculateCostMap(USE_ELEVATION_MAP_ONLY);
00306 }
00307 }
00308
00309 void CostMapCalculation::callbackPointCloud(const sensor_msgs::PointCloud2ConstPtr& cloud_msg)
00310 {
00311 pcl::PointCloud<pcl::PointXYZ>::Ptr cloud_sensor (new pcl::PointCloud<pcl::PointXYZ>);
00312 pcl::PointCloud<pcl::PointXYZ>::Ptr cloud_base_link (new pcl::PointCloud<pcl::PointXYZ>);
00313
00314 ROS_DEBUG("HectorCM: received new point cloud");
00315
00316
00317 pcl::fromROSMsg(*cloud_msg, *cloud_sensor);
00318
00319
00320 try
00321 {
00322 listener.waitForTransform("base_stabilized", cloud_msg->header.frame_id,cloud_msg->header.stamp,ros::Duration(1.0));
00323 pcl_ros::transformPointCloud("base_stabilized",*cloud_sensor,*cloud_base_link,listener);
00324 }
00325 catch (tf::TransformException ex)
00326 {
00327 ROS_ERROR("%s",ex.what());
00328 ROS_DEBUG("HectorCM: pointcloud transform failed");
00329 return;
00330 }
00331
00332
00333 if(!computeWindowIndices(cloud_msg->header.stamp, update_radius_world))
00334 return;
00335
00336 Eigen::Vector2f world_coords;
00337
00338 Eigen::Vector4f minPoint;
00339 world_coords = world_map_transform.getC1Coords(min_index.cast<float>());
00340 minPoint[0]=world_coords(0);
00341 minPoint[1]=world_coords(1);
00342 minPoint[2]=slize_min_height;
00343
00344 Eigen::Vector4f maxPoint;
00345 world_coords = world_map_transform.getC1Coords(max_index.cast<float>());
00346 maxPoint[0]=world_coords(0);
00347 maxPoint[1]=world_coords(1);
00348 maxPoint[2]=slize_max_height;
00349
00350 pcl::CropBox<pcl::PointXYZ> cropFilter;
00351 cropFilter.setInputCloud (cloud_base_link);
00352 cropFilter.setMin(minPoint);
00353 cropFilter.setMax(maxPoint);
00354 cropFilter.filter (*sliced_cloud);
00355
00356 ROS_DEBUG("HectorCM: slice size: %d", (int)sliced_cloud->size());
00357 pub_cloud_slice.publish(sliced_cloud);
00358
00359 cloud_cost_map.data.assign(cost_map.info.width * cost_map.info.height,UNKNOWN_CELL);
00360
00361
00362 for (unsigned int k = 0; k < sliced_cloud->size(); ++k)
00363 {
00364 const pcl::PointXYZ& pt_cloud = sliced_cloud->points[k];
00365
00366
00367 Eigen::Vector2f index_world(pt_cloud.x, pt_cloud.y);
00368 Eigen::Vector2f index_map (world_map_transform.getC2Coords(index_world));
00369
00370 cloud_cost_map.data[MAP_IDX(cost_map.info.width, (int)round(index_map(0)), (int)round(index_map(1)))] = OCCUPIED_CELL;
00371 }
00372
00373
00374 received_point_cloud = true;
00375
00376
00377 if(received_grid_map)
00378 {
00379 if(received_elevation_map)
00380 {
00381 calculateCostMap(USE_GRID_AND_ELEVATION_MAP_AND_CLOUD_MAP);
00382 }
00383 else
00384 {
00385 calculateCostMap(USE_GRID_AND_CLOUD_MAP);
00386 }
00387 }
00388 }
00389
00390 void CostMapCalculation::callbackGridMap(const nav_msgs::OccupancyGridConstPtr& grid_map_msg)
00391 {
00392 ROS_DEBUG("HectorCM: received new grid map");
00393
00394
00395 if((int)(1000*grid_map_msg->info.resolution) != (int)(1000*cost_map.info.resolution) &&
00396 grid_map_msg->info.height != cost_map.info.height &&
00397 grid_map_msg->info.width != cost_map.info.width)
00398 {
00399 ROS_ERROR("HectorCM: grid map resolution and or size incorrect!");
00400 return;
00401 }
00402
00403 grid_map_msg_ = grid_map_msg;
00404
00405
00406 grid_map_ = cv::Mat(grid_map_msg_->info.height, grid_map_msg_->info.width, CV_8S, const_cast<int8_t*>(&grid_map_msg_->data[0]), (size_t)grid_map_msg_->info.width);
00407
00408
00409 received_grid_map = true;
00410
00411
00412 if(!computeWindowIndices(grid_map_msg->header.stamp, update_radius_world))
00413 return;
00414
00415
00416 if(received_elevation_map)
00417 {
00418 if(received_point_cloud)
00419 {
00420 calculateCostMap(USE_GRID_AND_ELEVATION_MAP_AND_CLOUD_MAP);
00421 }
00422 else
00423 {
00424 calculateCostMap(USE_GRID_AND_ELEVATION_MAP);
00425 }
00426 }
00427 else
00428 {
00429 if(received_point_cloud)
00430 {
00431 calculateCostMap(USE_GRID_AND_CLOUD_MAP);
00432 }
00433 else
00434 {
00435 calculateCostMap(USE_GRID_MAP_ONLY);
00436 }
00437 }
00438 }
00439
00440 bool CostMapCalculation::calculateCostMap_old(char map_level)
00441 {
00442 switch(map_level)
00443 {
00444 case USE_GRID_MAP_ONLY:
00445 {
00446
00447
00448 ROS_DEBUG("HectorCM: compute costmap based on grid map");
00449
00450
00451 for (int v = min_index(1); v < max_index(1); ++v)
00452 {
00453 for (int u = min_index(0); u < max_index(0); ++u)
00454 {
00455 unsigned int index = MAP_IDX(cost_map.info.width, u, v);
00456
00457
00458 if((char)grid_map_.data[index] != UNKNOWN_CELL)
00459 {
00460 if(grid_map_.data[index] == OCCUPIED_CELL)
00461 {
00462
00463 cost_map.data[index] = OCCUPIED_CELL;
00464 }
00465 else
00466 {
00467
00468 cost_map.data[index] = FREE_CELL;
00469 }
00470 }
00471 }
00472 }
00473
00474 break;
00475 }
00476 case USE_ELEVATION_MAP_ONLY:
00477 {
00478
00479
00480 ROS_DEBUG("HectorCM: compute costmap based on elevation map");
00481
00482
00483
00484 for (int v = min_index(1); v < max_index(1); ++v)
00485 {
00486 for (int u = min_index(0); u < max_index(0); ++u)
00487 {
00488 unsigned int index = MAP_IDX(cost_map.info.width, u, v);
00489
00490
00491 if(elevation_cost_map.data[index] != UNKNOWN_CELL)
00492 {
00493 if(elevation_cost_map.data[index] == OCCUPIED_CELL)
00494 {
00495
00496 cost_map.data[index] = OCCUPIED_CELL;
00497 }
00498 else
00499 {
00500
00501 cost_map.data[index] = FREE_CELL;
00502 }
00503 }
00504 }
00505 }
00506
00507 break;
00508 }
00509 case USE_GRID_AND_ELEVATION_MAP:
00510 {
00511
00512
00513 ROS_DEBUG("HectorCM: compute costmap based on grid and elevation map");
00514
00515 int checksum_grid_map;
00516
00517
00518 for (int v = min_index(1); v < max_index(1); ++v)
00519 {
00520 for (int u = min_index(0); u < max_index(0); ++u)
00521 {
00522 unsigned int index = MAP_IDX(cost_map.info.width, u, v);
00523
00524
00525 if(grid_map_.at<int8_t>(v,u) != UNKNOWN_CELL)
00526 {
00527 if(grid_map_.at<int8_t>(v,u) == OCCUPIED_CELL || elevation_cost_map.data[index] == OCCUPIED_CELL)
00528 {
00529 checksum_grid_map = 0;
00530
00531 checksum_grid_map += grid_map_.at<int8_t>(v-1, u);
00532 checksum_grid_map += grid_map_.at<int8_t>(v+1, u);
00533 checksum_grid_map += grid_map_.at<int8_t>(v, u-1);
00534 checksum_grid_map += grid_map_.at<int8_t>(v, u+1);
00535 checksum_grid_map += grid_map_.at<int8_t>(v+1, u+1);
00536 checksum_grid_map += grid_map_.at<int8_t>(v-1, u-1);
00537 checksum_grid_map += grid_map_.at<int8_t>(v+1, u-1);
00538 checksum_grid_map += grid_map_.at<int8_t>(v-1, u+1);
00539
00540 if(elevation_cost_map.data[index] == FREE_CELL && allow_elevation_map_to_clear_occupied_cells)
00541 {
00542 if(checksum_grid_map <= max_clear_size*OCCUPIED_CELL)
00543 {
00544
00545 cost_map.data[index] = FREE_CELL;
00546 }
00547 else
00548 {
00549
00550 cost_map.data[index] = OCCUPIED_CELL;
00551 }
00552 }
00553 else
00554 {
00555
00556 cost_map.data[index] = OCCUPIED_CELL;
00557 }
00558 }
00559 else
00560 {
00561 cost_map.data[index] = FREE_CELL;
00562 }
00563 }
00564 }
00565 }
00566 break;
00567 }
00568 case USE_GRID_AND_CLOUD_MAP:
00569 {
00570
00571
00572 ROS_DEBUG("HectorCM: compute costmap based on grid and cloud map");
00573
00574
00575 for (int v = min_index(1); v < max_index(1); ++v)
00576 {
00577 for (int u = min_index(0); u < max_index(0); ++u)
00578 {
00579 unsigned int index = MAP_IDX(cost_map.info.width, u, v);
00580
00581
00582 if(grid_map_.at<int8_t>(v,u) != UNKNOWN_CELL)
00583 {
00584 if(grid_map_.at<int8_t>(v,u) == OCCUPIED_CELL || cloud_cost_map.data[index] == OCCUPIED_CELL)
00585 {
00586
00587 cost_map.data[index] = OCCUPIED_CELL;
00588 }
00589 else
00590 {
00591 cost_map.data[index] = FREE_CELL;
00592 }
00593 }
00594 }
00595 }
00596 break;
00597 }
00598
00599 case USE_GRID_AND_ELEVATION_MAP_AND_CLOUD_MAP:
00600 {
00601
00602
00603 ROS_DEBUG("HectorCM: compute costmap based on grid, cloud and elevation map");
00604
00605 int checksum_grid_map;
00606
00607
00608 for (int v = min_index(1); v < max_index(1); ++v)
00609 {
00610 for (int u = min_index(0); u < max_index(0); ++u)
00611 {
00612 unsigned int index = MAP_IDX(cost_map.info.width, u, v);
00613
00614
00615 if(grid_map_.at<int8_t>(v,u) != UNKNOWN_CELL)
00616 {
00617 if(grid_map_.at<int8_t>(v,u) == OCCUPIED_CELL || elevation_cost_map.data[index] == OCCUPIED_CELL)
00618 {
00619 checksum_grid_map = 0;
00620
00621 checksum_grid_map += grid_map_.at<int8_t>(v-1, u);
00622 checksum_grid_map += grid_map_.at<int8_t>(v+1, u);
00623 checksum_grid_map += grid_map_.at<int8_t>(v, u-1);
00624 checksum_grid_map += grid_map_.at<int8_t>(v, u+1);
00625 checksum_grid_map += grid_map_.at<int8_t>(v+1, u+1);
00626 checksum_grid_map += grid_map_.at<int8_t>(v-1, u-1);
00627 checksum_grid_map += grid_map_.at<int8_t>(v+1, u-1);
00628 checksum_grid_map += grid_map_.at<int8_t>(v-1, u+1);
00629
00630 if(elevation_cost_map.data[index] == FREE_CELL && allow_elevation_map_to_clear_occupied_cells)
00631 {
00632 if(checksum_grid_map <= max_clear_size*OCCUPIED_CELL)
00633 {
00634
00635 cost_map.data[index] = FREE_CELL;
00636 }
00637 else
00638 {
00639
00640 cost_map.data[index] = OCCUPIED_CELL;
00641 }
00642 }
00643 else
00644 {
00645
00646 cost_map.data[index] = OCCUPIED_CELL;
00647 }
00648 }
00649 else
00650 {
00651 if(cloud_cost_map.data[index] == OCCUPIED_CELL)
00652 {
00653
00654 cost_map.data[index] = OCCUPIED_CELL;
00655 }
00656 else
00657 {
00658
00659 cost_map.data[index] = FREE_CELL;
00660 }
00661
00662 }
00663 }
00664 }
00665 }
00666 break;
00667 }
00668 }
00669
00670 ROS_DEBUG("HectorCM: computed a new costmap");
00671
00672 return true;
00673 }
00674
00675 bool CostMapCalculation::calculateCostMap(char map_level)
00676 {
00677 if (!map_level)
00678 {
00679 ROS_WARN("Invalid map selection was given to cost map calculation!");
00680 return false;
00681 }
00682
00683 if (map_level & GRID_MAP) ROS_DEBUG("HectorCM: compute costmap based on grid map");
00684 if (map_level & ELEVATION_MAP) ROS_DEBUG("HectorCM: compute costmap based on elevation map");
00685 if (map_level & CLOUD_MAP) ROS_DEBUG("HectorCM: compute costmap based on cloud map");
00686
00687
00688 for (int v = min_index(1); v < max_index(1); ++v)
00689 {
00690 for (int u = min_index(0); u < max_index(0); ++u)
00691 {
00692 unsigned int index = MAP_IDX(cost_map.info.width, u, v);
00693 int checksum_grid_map = 0;
00694
00695 cost_map.data[index] = UNKNOWN_CELL;
00696
00697
00698 if (map_level & GRID_MAP)
00699 {
00700 switch (grid_map_.data[index])
00701 {
00702 case OCCUPIED_CELL:
00703 if (map_level & ELEVATION_MAP && allow_elevation_map_to_clear_occupied_cells)
00704 {
00705 checksum_grid_map += grid_map_.at<int8_t>(v-1, u );
00706 checksum_grid_map += grid_map_.at<int8_t>(v+1, u );
00707 checksum_grid_map += grid_map_.at<int8_t>(v, u-1);
00708 checksum_grid_map += grid_map_.at<int8_t>(v, u+1);
00709 checksum_grid_map += grid_map_.at<int8_t>(v+1, u+1);
00710 checksum_grid_map += grid_map_.at<int8_t>(v-1, u-1);
00711 checksum_grid_map += grid_map_.at<int8_t>(v+1, u-1);
00712 checksum_grid_map += grid_map_.at<int8_t>(v-1, u+1);
00713 }
00714
00715 cost_map.data[index] = OCCUPIED_CELL;
00716 break;
00717 case FREE_CELL: cost_map.data[index] = FREE_CELL; break;
00718 }
00719 }
00720
00721
00722 if (map_level & CLOUD_MAP)
00723 {
00724 if (cost_map.data[index] != OCCUPIED_CELL)
00725 {
00726 switch (cloud_cost_map.data[index])
00727 {
00728 case OCCUPIED_CELL: cost_map.data[index] = OCCUPIED_CELL; break;
00729 case FREE_CELL: cost_map.data[index] = FREE_CELL; break;
00730 }
00731 }
00732 }
00733
00734
00735 if (map_level & ELEVATION_MAP)
00736 {
00737 if (cost_map.data[index] != OCCUPIED_CELL || (allow_elevation_map_to_clear_occupied_cells && checksum_grid_map <= max_clear_size*OCCUPIED_CELL))
00738 {
00739 switch (elevation_cost_map.data[index])
00740 {
00741 case OCCUPIED_CELL: cost_map.data[index] = OCCUPIED_CELL; break;
00742 case FREE_CELL: cost_map.data[index] = FREE_CELL; break;
00743 }
00744 }
00745 }
00746 }
00747 }
00748
00749 ROS_DEBUG("HectorCM: computed a new costmap");
00750
00751 return true;
00752 }
00753
00754 bool CostMapCalculation::computeWindowIndices(ros::Time time,double update_radius)
00755 {
00756 int update_radius_map;
00757 Eigen::Vector2f index_world, index_map;
00758
00759
00760
00761 tf::StampedTransform transform;
00762
00763
00764 try
00765 {
00766 listener.waitForTransform(map_frame_id, local_transform_frame_id, time, ros::Duration(5));
00767 listener.lookupTransform(map_frame_id, local_transform_frame_id, time, transform);
00768 }
00769 catch (tf::TransformException ex)
00770 {
00771 ROS_ERROR("%s",ex.what());
00772 return false;
00773 }
00774
00775 index_world(0) = transform.getOrigin().x();
00776 index_world(1) = transform.getOrigin().y();
00777 index_map = world_map_transform.getC2Coords(index_world);
00778 update_radius_map = floor(((double)update_radius/(double)cost_map.info.resolution));
00779
00780
00781
00782 if(index_map(1) < update_radius_map)
00783 min_index(1) = 0;
00784 else
00785 min_index(1) = index_map(1) - update_radius_map;
00786
00787 if(index_map(1) + update_radius_map > cost_map.info.height)
00788 max_index(1) = cost_map.info.height;
00789 else
00790 max_index(1) = index_map(1) + update_radius_map;
00791
00792 if(index_map(0) < update_radius_map)
00793 min_index(0) = 0;
00794 else
00795 min_index(0) = index_map(0) - update_radius_map;
00796
00797 if(index_map(0) + update_radius_map > cost_map.info.width)
00798 max_index(0) = cost_map.info.width;
00799 else
00800 max_index(0) = index_map(0) + update_radius_map;
00801
00802 return true;
00803 }
00804