**************************************************************** lasground_new: This is a tool for bare-earth extraction: it classifies LIDAR points into ground points (class = 2) and non-ground points (class = 1). This is a totally redesigned version of lasground that handles complicated terrain much better where there are steep mountains nearby urban areas with many buildings. You can use other classifications than the ASRPS standard with '-ground_class 10' or '-non_ground_class 25'. It is possible to leave intact the original classification of any points that are not classified as ground with '-non_ground_unchanged'. The default step size has been increased to 25 meters, which allows to remove most buildings in common cities (except very large warehouses or factories which require a larger step). For smaller towns or terrains with a few buildings use the '-town' option that decreases the step size to 10 meters. For very large cities use '-metro' and the step size is increased to 50 meters You can also experiment with setting it directly using '-step 35'. Then there is the '-nature' option that uses a step size of 5 meters for terrains without buildings and the '-wilderness' option that uses 3 meters if you care for smaller features on the ground in high resolution LiDAR. It is important to tell the tool whether the horizontal and vertical units are meters (which is assumed by default) or '-feet' or '-elevation_feet'. Should the LAS/LAZ file contain projection information then there is no need to specify this explicitly. If the input coordinates are in an earth-centered or a longlat representation, the file needs converted to, for example, a UTM projection first. That said, some folks have successfully ground-classified longlat representations using a very small '-step 0.000005' or so. By default the tool only considers the last return. Earlier returns are considered non-ground. You can turn this off by requesting '-all_returns'. If you want to leave out certain classifications from the bare-earth calculation you can do so with '-ignore_class 7'. For very steep hills you can intensify the search for initial ground points with '-fine', '-extra_fine', '-ultra_fine', or '-hyper_fine' and similarly for very flat terrains you can simplify the search with '-coarse' or '-extra_coarse' but try the default setting first. The experienced user can fine-tune the algorithm further by specifing the threshold in meters at which spikes get removed. Setting '-spike 0.5' will remove up-spikes above 50 centimeter and setting '-spike_down 2.5' will remove down-spikes below 2.5 meters in the coarsest TIN. The maximal offset in meters up to which points above the current ground estimate get included can be set with '-offset 0.1'. You can also - if you want to try a lot of settings - play with '-bulge 1.5' that - by default - is set to a tenth of the step size and then clamped into the range from 1.0 to 2.0. Finally you can ask lasground_new to compute the height above the ground for each point (so you can use lasclassify next without needing to run lasheight first) with '-compute_height' or even ask to have the computed height replace the elevation value with option '-replace_z'. Then you directly get a height normalized LAS/LAZ file that can be used, for example, with the lascanopy or lasgrid tools or the pit-free canopy height model (CHM) algorithm. Should lasground miss-behave try turning off some optimizations using the '-no_clean' or the '-no_bulge' flags. If there are too few points to do reliable ground classification then the files are simply copied (and in case of '-replace_z' all elevations are zeroed). Alternatively these files can be skipped with the command-line option '-skip_files'. Please license from martin@rapidlasso.com to use lasground_new commercially. Please note that the unlicensed version will set intensity, gps_time, user data, and point source ID to zero, slightly change the LAS point order, and randomly add a tiny bit of white noise to the points coordinates. For updates check the website or join the LAStools mailing list. http://rapidlasso.com/ http://lastools.org/ http://groups.google.com/group/lastools/ http://twitter.com/lastools/ http://facebook.com/lastools/ http://linkedin.com/groups?gid=4408378 Martin @lastools **************************************************************** example usage: >> lasground -i terrain.laz -o classified_terrain.laz classifies a terrain with the default settings. >> lasground -i terrain.laz -o classified_terrain.laz -feet -elevation_feet classifies a terrain where both horizontal and vertical units are in feet instead of in meters (which is assumed by default unless there is projection information in the LAS file saying otherwise). >> lasground -i terrain.laz -o classified_terrain.laz -all_returns classifies a terrain considering all points - not just the last returns (as is the default behavior). >> lasground -i tiles_raw\*.laz -odir tiles_ground -olaz -cores 16 classifies all LAZ files from the tiles_raw folder with the default settings on multiple cores and stores the result as LAZ files in the tiles_ground folder (that must exist). >> lasground -i *.laz -town -odix _g -olaz -cores 8 the same as above but uses finer spacing to allowing only smaller buildings and other man-made structures to be removed. >> lasground -i *.laz -metro -odix _ground -olaz -cores 4 the same as above but uses a wider spacing to allow removing very large buildings such as warehouses and factories. **************************************************************** overview of all tool-specific switches: -v : more info reported in console -vv : even more info reported in console -quiet : nothing reported in console -wait : wait for in the console at end of process -version : reports this tool's version number -fail : fail if license expired or invalid -gui : start with files loaded into GUI -cores 4 : process multiple inputs on 4 cores in parallel -ignore_class 1 3 4 5 6 7 9 : ignores points with specified classification codes -ignore_extended_class 42 43 45 67 : ignores points with specified extended classification codes -ignore_single : ignores single returns -ignore_first : ignores first returns -ignore_last : ignores last returns -ignore_first_of_many : ignores first returns (but only those of multi-returns) -ignore_intermediate : ignores intermediate returns -ignore_last_of_many : ignores last returns (but only those of multi-returns) -ignore_withheld : ignores points flagged withheld -ignore_overlap : ignores points flagged overlap (new LAS 1.4 point types only) -step 8.0 : set resolution of grid used for initial ground to 8.0 [default is 5.0] -sub 5 : -offset 0.02 : offset that points can be above bulged ground TIN and still become ground [default is 0.05] -bulge 1.8 : amount that TIN triangles with sloped neighbourhoods are bulging up or down [default is -no_bulge : sets bulge to zero -spike 0.5 : -no_clean : do not perform cleaning steps that remove spikes from the current ground TIN estimate -not_airborne : same as setting these three: '-no_bulge', '-all_returns', and '-stddev 0' -pertube : -iterate 1 : -no_iterate : sets max number of refinement loops to zero -refine 3 : -no_refine : sets max number of refinement loops to zero -extra_coarse : -coarse : -fine : -extra_fine : -ultra_fine : -hyper_fine : -archeology : -wilderness : -nature : -town : -city : -metro : -ground_class 8 : -non_ground_class 20 : -non_ground_unchanged : -all_returns : -extra_pass : -cutoff_z_above 180.0 : points above this elevation are completely excluded from ground search -compute_height : -replace_z : -store_in_user_data : -skip_files : skip (instead of the default copy) files that have an insufficient number of ground points -remain_buffered : write buffer points to output when using '-buffered 25' on-the-fly buffering -ilay : apply all LASlayers found in corresponding *.lay file on read -ilay 3 : apply first three LASlayers found in corresponding *.lay file on read -ilaydir E:\my_layers : look for corresponding *.lay file in directory E:\my_layers -olay : write or append classification changes to a LASlayers *.lay file -olaydir E:\my_layers : write the output *.lay file in directory E:\my_layers **************************************************************** for more info: D:\LAStools\bin>lasground_new.exe -h Filter points based on their coordinates. -keep_tile 631000 4834000 1000 (ll_x ll_y size) -keep_circle 630250.00 4834750.00 100 (x y radius) -keep_xy 630000 4834000 631000 4836000 (min_x min_y max_x max_y) -drop_xy 630000 4834000 631000 4836000 (min_x min_y max_x max_y) -keep_x 631500.50 631501.00 (min_x max_x) -drop_x 631500.50 631501.00 (min_x max_x) -drop_x_below 630000.50 (min_x) -drop_x_above 630500.50 (max_x) -keep_y 4834500.25 4834550.25 (min_y max_y) -drop_y 4834500.25 4834550.25 (min_y max_y) -drop_y_below 4834500.25 (min_y) -drop_y_above 4836000.75 (max_y) -keep_z 11.125 130.725 (min_z max_z) -drop_z 11.125 130.725 (min_z max_z) -drop_z_below 11.125 (min_z) -drop_z_above 130.725 (max_z) -keep_xyz 620000 4830000 100 621000 4831000 200 (min_x min_y min_z max_x max_y max_z) -drop_xyz 620000 4830000 100 621000 4831000 200 (min_x min_y min_z max_x max_y max_z) Filter points based on their return number. -first_only -keep_first -drop_first -last_only -keep_last -drop_last -keep_middle -drop_middle -keep_return 1 2 3 -drop_return 3 4 -keep_single -drop_single -keep_double -drop_double -keep_triple -drop_triple -keep_quadruple -drop_quadruple -keep_quintuple -drop_quintuple Filter points based on the scanline flags. -drop_scan_direction 0 -scan_direction_change_only -edge_of_flight_line_only Filter points based on their intensity. -keep_intensity 20 380 -drop_intensity_below 20 -drop_intensity_above 380 -drop_intensity_between 4000 5000 Filter points based on their classification. -keep_class 1 3 7 -drop_class 4 2 -drop_synthetic -keep_synthetic -drop_keypoint -keep_keypoint -drop_withheld -keep_withheld Filter points based on their user data. -keep_user_data 1 -drop_user_data 255 -keep_user_data_between 10 20 -drop_user_data_below 1 -drop_user_data_above 100 -drop_user_data_between 10 40 Filter points based on their point source ID. -keep_point_source 3 -keep_point_source_between 2 6 -drop_point_source 27 -drop_point_source_below 6 -drop_point_source_above 15 -drop_point_source_between 17 21 Filter points based on their scan angle. -keep_scan_angle -15 15 -drop_abs_scan_angle_above 15 -drop_scan_angle_below -15 -drop_scan_angle_above 15 -drop_scan_angle_between -25 -23 Filter points based on their gps time. -keep_gps_time 11.125 130.725 -drop_gps_time_below 11.125 -drop_gps_time_above 130.725 -drop_gps_time_between 22.0 48.0 Filter points based on their wavepacket. -keep_wavepacket 0 -drop_wavepacket 3 Filter points with simple thinning. -keep_every_nth 2 -keep_random_fraction 0.1 -thin_with_grid 1.0 -thin_with_time 0.001 Transform coordinates. -translate_x -2.5 -scale_z 0.3048 -rotate_xy 15.0 620000 4100000 (angle + origin) -translate_xyz 0.5 0.5 0 -translate_then_scale_y -0.5 1.001 -switch_x_y -switch_x_z -switch_y_z -clamp_z_below 70.5 -clamp_z 70.5 72.5 Transform raw xyz integers. -translate_raw_z 20 -translate_raw_xyz 1 1 0 -clamp_raw_z 500 800 Transform intensity. -scale_intensity 2.5 -translate_intensity 50 -translate_then_scale_intensity 0.5 3.1 -clamp_intensity 0 255 -clamp_intensity_above 255 Transform scan_angle. -scale_scan_angle 1.944445 -translate_scan_angle -5 -translate_then_scale_scan_angle -0.5 2.1 Change the return number or return count of points. -repair_zero_returns -set_return_number 1 -change_return_number_from_to 2 1 -set_number_of_returns 2 -change_number_of_returns_from_to 0 2 Modify the classification. -set_classification 2 -change_classification_from_to 2 4 -classify_z_below_as -5.0 7 -classify_z_above_as 70.0 7 -classify_z_between_as 2.0 5.0 4 -classify_intensity_above_as 200 9 -classify_intensity_below_as 30 11 -change_extended_classification_from_to 6 46 Change the flags. -set_withheld_flag 0 -set_synthetic_flag 1 -set_keypoint_flag 0 -set_extended_overlap_flag 1 Modify the extended scanner channel. -set_extended_scanner_channel 2 Modify the user data. -set_user_data 0 -change_user_data_from_to 23 26 Modify the point source ID. -set_point_source 500 -change_point_source_from_to 1023 1024 -quantize_Z_into_point_source 200 Transform gps_time. -translate_gps_time 40.50 -adjusted_to_week -week_to_adjusted 1671 Transform RGB colors. -scale_rgb_down (by 256) -scale_rgb_up (by 256) Supported LAS Inputs -i lidar.las -i lidar.laz -i lidar1.las lidar2.las lidar3.las -merged -i *.las - merged -i flight0??.laz flight1??.laz -i terrasolid.bin -i esri.shp -i nasa.qi -i lidar.txt -iparse xyzti -iskip 2 (on-the-fly from ASCII) -i lidar.txt -iparse xyzi -itranslate_intensity 1024 -lof file_list.txt -stdin (pipe from stdin) -rescale 0.01 0.01 0.001 -rescale_xy 0.01 0.01 -rescale_z 0.01 -reoffset 600000 4000000 0 Supported LAS Outputs -o lidar.las -o lidar.laz -o xyzta.txt -oparse xyzta (on-the-fly to ASCII) -o terrasolid.bin -o nasa.qi -odir C:\data\ground (specify output directory) -odix _classified (specify file name appendix) -ocut 2 (cut the last two characters from name) -olas -olaz -otxt -obin -oqfit (specify format) -stdout (pipe to stdout) -nil (pipe to NULL) LAStools (by martin@rapidlasso.com) version 150125 (commercial) usage: lasground_new -i in.laz -o out.laz lasground_new -i *.laz -odix _g -olaz -cores 4 lasground_new -i in.las -o out.laz -metro lasground_new -i in.laz -o out.laz -town -ignore_class 7 lasground_new -i in.laz -o out.laz -v -step 45 -spike 1.5 -down_spike 2.5 -bulge 2.5 -offset 0.1 lasground_new -i in.las -o out.laz -feet -elevation_feet lasground_new -i in.laz -o out.laz -no_bulge lasground_new -i *.laz -v -odir ground_classified -olaz -cores 8 lasground_new -h --------------- if you find bugs let me (martin.isenburg@rapidlasso.com) know.