Class | Limits Percentage 
1 0m x Ahl « 10m 39.1296 
2 10 m € IAhl « 20 m 27.11% 
3 20 m € IAhl « 50 m 28.10% 
4 50 m € IAhl « 100m 5.1196 
5 100 m € IAhl « 150m 0.48% 
6 IAhl 2 150 m 0.08% 
  
Table 4. Classes of elevation differences between Switzerland 
and Piedmont and their percentages 
= 
e 
c 
= 
150m 
£ = = 
> © © 
u» C = 
  
Distribution of the elevation differences (absolute values) 
  
  
  
CN 
  
  
4661 
465r 
464r 
463r 
461r 
e LD wo 
<r <r <r 
[IY 
Figure 3. Spatial distribution of the elevation differences 
between Switzerland and Lombardy DTMs. 
3.2 Cross-validation of high and low resolution DTMs in 
Lombardy 
High and low resolution DTMS have been compared by 
implementing new commands in GRASS GIS 7.0. The 
procedures that have been applied for the cross-validation in the 
Lombardy region are here shortly described. 
The LR DTM has been transformed to the ETRF89 reference 
frame. The result is a list of 3D points, that clearly are almost 
regularly spaced but no more on a regular grid. For each point, a 
square window of 20 x 20 m? has been considered. All the HR 
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XXXIX-B4, 2012 
XXII ISPRS Congress, 25 August — 01 September 2012, Melbourne, Australia 
DTM nodes contained in the window are averaged and their 
mean is compared with the LR height. 
Note that the HR DTM covers only the hydrographic main 
basins of the region, for a total coverage of about 3810 Km? 
(which corresponds to the 16% of the total Lombardy region). 
The following global statistics have been obtained on the 
common area: 
e number of points: 4048660 
e mean, u(Ah) =0.5m 
e standard deviation, o(Ah) = 6.6m 
e maximum, max(Ah) = 204 m 
e minimum, min(Ah) =-138m 
  
Distribution of the elevation differences (absolute values) 
  
  
| 
8 
[.]Y 
Figure 4. Spatial distribution of the elevation differences 
between Switzerland and Piedmont DTMs. 
465 
6 4 
463r 
46.1 
To verify the existence of global biases, the differences have 
been clustered in eight classes: the results are reported in Table 
5. Figure 5 depicts the spatial distribution of the differences. 
Moreover we have started to investigate a phenomenon that, at 
first sight, seems quite strange. As example, Figure 6 and Table 
6 report the differences relevant to the Valley of S.Giacomo that 
covers all the B1 Lombardy grid. 
The mean difference is 0.5 meters, which is not significant with 
respect to the LR DTM accuracy. However, in the West slope 
(the lower part of the figure) a negative bias between HR and 
LR DTMs appears. In the other slope an opposite bias is 
present. Such a behavior could be justified by a translation of