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I do have DEM of 1x1 meter and original LiDAR point cloud in .las, that DEM is made of. I need to extract river dikes (highest points of the dikes) to vector feature (point, polyline). Any idea for the algorythm or an existing tool? Dikes are in light grey on the 1st image and below is point cloud image for the example area with the dikes. River centerline in blue.

Dikes are in light grey

Point cloud with the dikes

Any tool for linear features extraction from DEM? I belive I need something like ENVI’s Spatial Feature Extraction Module (page 7), but without ENVI's part, as I can not afford it :)

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What gis system are you using? – Hornbydd Jun 25 '12 at 19:28
Commercial- ArcInfo 10 (SA, 3D, Geostatistical extensions). Open source- any. – Tomek Jun 25 '12 at 19:51
I was thinking of some idea, assuming you had a vector centerline for your river that you could buffer this and use this to mask the DEM and threshold the values. This assumes the dike runs parallel to the river channel. So what ever logic you use needs to be clever enough to capture dikes as they become "set back" from the river. – Hornbydd Jun 25 '12 at 20:05
Unfortunately dikes do not always runs parallel to the river channel and quite often are far away from river channel. I was thinking that there would be some algorytm as skeletonization? For extraction of the linear feature(s) from DEM, with such feature I could derive highest points in the point cloud. – Tomek Jun 25 '12 at 20:22
I came across this paper, may be of help?… – Hornbydd Jun 26 '12 at 9:10
up vote 8 down vote accepted

It all depends on where you draw the line. Regardless, this problem looks like it can be readily addressed using the morphological functions available in Spatial Analyst, especially thresholding (performed with "<" and ">" local operations) and "RegionGroup" to identify and extract components.

Although I do not have access to the DEM to illustrate, the first image is almost good enough to do the job anyway. For example, here is a sequence of regiongrouped versions of the red band (with values scaled from 0.0=black to 1.0=white), starting at a threshold of 0 and moving from left to right, top to bottom, in increments of 0.02:


(These images were shrunk for reproduction here: all analysis was done at the resolution of the original image.)

The dikes emerge around the boundary of the black region by the start of the second row (threshold = 0.08). At the start of the third row (threshold = 0.16) the dikes form their own components (in dark blue) and at that point can be readily extracted as separate grids or polygons (and their boundaries can be extracted as polylines after an edge detection step). Only the widest dikes remain by the last row (threshold = 0.24 and greater). You will need to select an appropriate threshold in order to get precisely what you want.

In the original DEM, elevations play the role of intensity, so these procedures ought to be similarly effective with the DEM itself. If the DEM has a large extent (including features far from the river or dikes), the relevant features can be selected as those adjacent to the component in which the river feature lies.

Thin unwanted regions found by RegionGroup can be eliminated by applying a small erosion (negative buffer) followed by an equivalent dilation (positive buffer). Small unwanted regions can be excluded on a size criterion (total cell count or area). The highest points on each dike (if that's what is really needed) can be found by comparing the DEM to zonal maximum grids (using the dikes as zones).

Incidentally, this sequence of images was produced in Mathematica 8. Here are the commands for those who may wish to pursue this option.

original = Import[""];
{r, g, b} = ColorSeparate[original];
frames = ParallelTable[Colorize[MorphologicalComponents[Binarize[r, t/100]], 
                       ColorFunction -> "ThermometerColors"], {t, 0, 30, 2}];
Rasterize @ TableForm[Partition[frames, 4]]

Total clock time (after importing the image) was 0.94 seconds, of which half was needed to shrink and export all 16 images: morphological operations tend to be fast (which is good, because LIDAR DEMs can be huge).

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Whole concept sounds ok, but I do not understand "...thresholding (performed with "<" and ">" local operations)" part. How do you achieve this with Generalisation (SA) tool set? – Tomek Jul 3 '12 at 12:50
@Tomek One doesn't. See the logical toolset. – whuber Jul 3 '12 at 13:10

I read about variety of algorithms for the job (ie. as per @Hornbydds link).

I tried couple appoches, and the best results in my case yield Standard Terrain Analysis from SAGA. Here is what I did and why:

Dikes are usually highest feature in the vicinity of river channel, so I turned them into channels by flipping DEM (MapAlgebra DEM * -1 or for exaggeration of slopes -10). From this point I could use any of hydrological tool sets (ArcHydro, HEC-GeoRas or SAGA hydro tools). I picked SAGA/Terrain Analysis -compound analysis/Standard Terrain Analysis as it produce River Network with couple of clicks. River Network is what I wanted to achieve, as it produce polylines, which indicate best route for water flow, which in case of inverted dikes - gives their highest point.

Produced shape file is a little bit messy (many of smaller polylines), but after some tweaking results are satisfactory. Another annoyance is that 1 dike is made of 300 short polylines, but I think that I'll find some way to handle this.

Here is results example:

enter image description here

Of course this is quite rough solution and I'll be probably investigating the issue further, but I thought its worth to share.

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Some combination of the following with the original DEM should help to highlight the raster information you want, and throw away the rest. These can be performed at different scales and neighborhood sizes to refine the effect.

  • Resample, then Neighborhood -> Filter: High Pass
  • Surface -> Curvature
  • Neighborhood -> Focal Statistics: Standard Deviation
  • "Relative Height" = (Pixel) - (Neighborhood -> Focal Statistics: Median)
  • Invert, Resample, then Neighborhood -> Focal Flow

After doing this, reclassification and contours should give a reasonably good outline of the dike itself. If the dikes are flat-sloped and you want a wider coverage, you could also try something like the sum of the curvature and the slope, scaled by some amount, or even do slope contours separately and union them together.

Here's a tutorial on extracting vector ridgelines from a raster DEM using Spatial Analyst, which should be highly applicable:

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I'll have a look at combination of tools- may give some good results. Thanks. As I see, ESRI tutorial describe the process +/- as I did :) Cool. Thanks. – Tomek Jun 28 '12 at 9:30

I think this might only be part of the answer but maybe you could start by making contours/polygons out of your images at given intervals/based on elevation values. I was thinking that dikes should have higher elevation values and therefor if converted you DEM to polygons you might find that the areas you are interested in are represented by centain polygons. You could also start by simply reclassifying the DEM and see if that produces the results you are after. If you have other image data that covers the area you are interested in try adding it to your image classification and see if it helps. Good luck!!

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We developped an algortim and you have a type of solution in

R-Grass sources working in the processing tools of qgis are available if you want

Best regards Frédéric Pons Cerema

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Welcome to the site PONS. Your link has potential, although seeing that GIS SE is an English language site, it has limited usefulness. Additionally, Stack Exchange discourages link only answers for a variety of reasons--more here:…. Please supply more information so that this post is self supported. – Aaron Jun 30 '15 at 13:00

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