International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B7. Istanbul 2004 
  
Figure 4. This is the most extreme example of an outlying 
point’s effect being carried throughout the aggregation process 
encountered for any of the countries analysed and highlights 
how points can shift in the plot space according to whether an 
economically overactive area is aggregated with points of 
average economic activity or below average activity. 
4.1 Characteristics of Outlying points 
For a few of the countries tested in the analysis of European 
countries, there is a number of points which deviated from the 
derived regression line. These points invariably represent 
heavily urbanised areas, usually a capital city or its hinterland. 
The scatterplot shown in Figure 4 is a visualisation of how the 
total amount of radiance in a NUTS region is related to its 
GDP output on a national scale. It is a more sophisticated 
measure than a simple lit-area versus GDP plot since pixels of 
equal areas can have very different radiances. It was hoped that 
this feature might help to reduce the magnitude of outlying 
regions but it appears that this is still not sufficient for some 
countries. 
11 EU countries were analysed in a similar manner to that of 
Spain. Certain countries exhibit extreme outliers, where 
points on the graph lies well above the main trendline. They 
are not the most radiant administrative areas but they are the 
most economically productive. France and Denmark both had 
these types of scatterplots. There is a number of similarities 
between the French and Danish outliers. Firstly both Paris and 
Copenhagen city centres are themselves NUTS regions. They 
are of the order of 100 km“, when the average NUTS-3 region 
is 5700km? in France and 2800 km? in Denmark. The Ile-de- 
France region around Paris is also a NUTS-1 region which is a 
fraction of the size of its sister NUTS-1 regions in France. It is 
highly urbanised and has a high proportion of higher radiance 
pixels. The Ile-de-France region is still an obvious outlier 
even after aggregation. However, if it is further combined with 
the much larger annular Bassin Parisien region, it begins to 
align with the other NUTS-1 regions. If a single scale 
independent relationship exists however, then it shouldn’t 
matter what spatial units are employed to construct the 
relationship. 
The difference in the relative size of NUTS regions is an 
important issue. Contrasting Spain’s NUTS-3 boundaries with 
that of France or Denmark, Spanish areas are reasonably large 
and uniform in size — even for Madrid and Barcelona. It begs 
the question whether a correlation is only as good as the spatial 
units it is based on. Would Barcelona’s NUTS-3 point be an 
outlier of the magnitude of Paris or Brussels, if it had a small 
administrative boundary in the centre of the city? If so, then 
the disaggregation will underestimate the centre of the city and 
overestimate the surrounding area by virtue of not having an 
appropriate spatial unit to describe its radiance relationship to 
economic activity. The same can be said for Milan or Rome, 
which also have large NUTS-3 areas when compared to the 
concentrated zones of Paris or Copenhagen. Whilst the 
problem can be “aggregated away”, the application of a 
‘macro-relationship’ to create a disaggregated map would be a 
misrepresentation of the finer points of the data. 
Examining the relationship between total radiance and 
different sectors of the economy (Figure 5), it is clear to see 
that different sectors of the make vastly differing contributions 
794 
to an area. In this example from the Italy, it can be seen that 
the services sector has a far higher gradient with total radiance 
than for agriculture. 
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
  
140000 4 
zona y=0.0782x - 2677.9|/* | |+Semices 
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ruil 
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= 
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Total Radiance (W.cm^-2.um^-1.sr^-1) 
  
  
  
Figure 5. Total Radiance versus GRP by economic sector for 
the Italy at NUTS-2 level. 
A single point in the total radrance-GRP relationship shown for 
Spain in Figure 4 is the combination of each set of points for 
the three economic sectors. Most regions have an even mix of 
each type of economic sector within a NUTS region, however 
very small urban NUTS areas such as Paris or Copenhagen are 
exclusively urban and the service sector relationship dominates 
the economic make-up of the area generating an outlying point 
in the scatterplot. 
Since outlying points in the scatterplot are smaller in size as 
well as highly urbanised NUTS regions, two additional metrics 
may be identified as being potentially helpful to discriminate 
these areas. Firstly, the mean radiance of a region could be a 
useful feature to discriminate those areas, which, while having 
equal total radiance, have different GRP. Secondly, the 
proportion of area lit in a NUTS region can give an indication 
of how urbanised that region is and therefore an inference can 
be made as to which sector of the economy is contributing to 
its GDP. The fact that different economic sectors have 
different GRP per unit radiance values suggests that a priori 
knowledge of these areas (from a land use map for example) 
could be used as weighting functions for a region. 
5. MAPPING RESULTS FROM RADIANCE- 
CALIBRATED DATA 
What implications do these observations have for the practical 
mapping of economic activity? One key consideration is how 
fár it is prudent to extend the relationship beyond the known 
data range to finer spatial resolutions (The Ecological Fallacy). 
Reconciling what the map aimed to display and the technical 
specifications of the DMSP-OLS sensor affected the choice of 
spatial resolution for the map. Whilst the relationship between 
total radiance and GRP has been demonstrated to be consistent 
from the NUTS-3 level up to NUTS-1, an unknown factor is 
how far the relationship can be extrapolated in the other 
direction (NUTS-3 to finer scales) before it becomes invalid. 
In addition to this unquantified micro-scale relationship, there 
is a desire to maintain an aggregate nature to the GDP figures 
in the map. Figure 5 shows that different relationships exist 
between the different economic sectors and total night-time 
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