International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXIX-B3, 2012
XXII ISPRS Congress, 25 August — 01 September 2012, Melbourne, Australia
Figure 1. the first is elevation map; 2-9 are layers with
different height.
There are some empty holes in each connection areas SZ j
(shown in Figure 1) One kind is that building's or
vegetation's "top" and ground in space is not connecting to
each other. These empty holes of the corresponding position
can be eliminated. The second kind of empty holes are caused
by the terrain. In the large connected region some small
higher areas may be exist. These areas will produce empty
holes and these empty holes should be retained. The
difference between the tow kinds empty holes is showed in
the figure 2.
(a) (b)
Figure 2. (a) The empty holes caused by building or
vegetation. (b) The empty hole caused by small higher area.
In each layer there are some of the lesser connection areas
which are caused by two reasons. One is the height diffence
between buildings (vegetation) and ground. The other is the
local small low-lying ground.
First of all we clear the noise of the original data. Then the
data is stratified according to height. Value of layer-thickness
should not be too large, otherwise accuracy is low. This paper
choose 1 meter as a layer-thickness. And then began to merge
gradually from the lowest layer, making judgment of the layer
connection areas in the process of the merger .If there are
empty holes, making judgment, delete empty holes caused by
building and vegetation. As shown in Figure 3, we get these
terrain points.
Figure 3. (a) LiDAR data
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Figure 3. (b) terrain points
3. AUTOMATIC EXTRACTION OF ROAD
The local geometric feature is implementing to filtering larger
square, parking lot around road, etc. As in the local area the
intensity on the road is similar, so adjusting to smaller
regional range contributes to filtering out the parking lot,
square and road.
First suppose the topological relationships of road that:
l. all roads are connected area with low intensity in
local region.
2. two different material road can not parallel and
appear closely.
Based on above two assumptions we can get the rough road
outline. Because the road is connection areas with a low
intensity, therefore we can get lower intensity connection
areas, and determine whether it has the geometrical
characteristics of the road. With topological characteristics we
can rule out none-road area. Region growing is used to extend
the road profile, and make up breakpoint caused by uneven
local intensity.
There are two steps to extract road. First local hierarchical
geometric feature filter none-road area and get rough road
outline. Second make road growing based on the road
framework produced in the first step, and according to the
connectivity make up small range breakpoints caused by
uneven regional intensity.
3.1 Local Hierarchical Geometric Feature Filtering
LiDAR data is stratified by the intensity. For this purpose we
describe the layer of the LIDAR data as Si, ,
Si, 2 (p; €S:jxAs<p,, <(jxAs+A))} à
where Si j denotes the j-th layer , Pipi is the intensity of
the last pulse of DJ is the number of the layer , As is
the step length and. AZ is the thickness of the layer. Figure 4
shows different layers with different intensity.
order to get more accurate results and reduce the
omplexity, this article deals with a smaller local scope. In the
cal scope increase intensity value step by step, and judge
onnection areas within the local region. When these
onnected areas are greater than a certain threshold, judge
hose shape and topological position respectively for deciding
E Kcep or not. And then make judgment in next local small
egion. Finally we get rough road profile.
