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 
  
| (1) Classify requirements | 
  
  
| (2) Develop methods | 
| (3) = | 
  
  
  
| (4) Evaluate | 
  
Figure 1. Examination procedure 
3. CLASSIFICATION OF REQUIREMENTS 
We asked the municipalities, who are the main users of the 
spatial data infrastructure, about the need for planimetric 
feature data. In total, we asked 19 departments of five 
municipalities in Mie Prefecture in four fields: urban planning, 
water supply, sewerage and fixed assets. 
The chart below depicts information on the level of importance 
and the frequency of change that we obtained from the 
municipalities. The importance of a planimetric feature 
represents the percentage of departments that need the feature 
data for their operations. 
.— (Building ) 
   
LES 
ooueyuodui 
MO 
  
v 
Low Frequency of change in data High 
Figure 2. Distribution of planimetric features by importance 
and frequency of change in data 
Among the features high in importance were natural or 
intangible features: administrative boundaries, shore lines and 
contour lines. These are subject to change due to disasters or 
large-scale development but do not change greatly with time. 
Roads and buildings are artificial constructions. They change 
on a day-to-day basis as the result of construction work. The 
frequency of change is high for this data. Partial updating is 
most effective in maintaining the quality of a spatial data 
infrastructure when it is performed on features that are high 
both in level of importance and frequency of change. Partially 
updating data on buildings and roads would lead to the 
sustainable operation of a spatial data infrastructure. 
Regarding these two types of planimetric features, we classified 
required freshness of data and location accuracy from the 
perspectives of governments, which are the subject of our field 
study, and the private sector, which does business based on the 
data, as shown in the table below. In the following sections, we 
propose updating methods to meet these requirements. 
  
Governments Private sector 
  
Up-to-date ^ data is|Up-to-date data is 
needed to support of|needed for marketing 
  
  
  
Freshness : 
people in need of help| and customer data 
Building in the event of disaster. | management. 
; Standard deviation of|Location accuracy is 
Location : ; : 
1.75 m is desirable for | not important. 
accuracy ; 
urban planning. 
Up-to-date data is| Up-to-date data is 
needed for  disaster| needed for use in car 
prevention, restoration| navigation systems 
and reconstruction | and logistics. 
Freshness 
Road 
following a disaster, as 
well as for daily 
management of 
facilities for utilities. 
Standard deviation of|Standard deviation of 
Location |0.75 m is desirable for| 0.75 m is desirable for 
accuracy |road management. the management of 
facilities for utilities. 
  
  
  
  
  
  
28 
Table 1. Required quality of building and road data from the 
perspectives of governments and the private sector 
4. DEVELOPMENT OF UPDATING METHODS 
4.1 Partial updating of road data 
Road construction causes roads to change in shape. With the 
exception of expressways and private roads, these are managed 
by governments. Governments, therefore, are the first to know 
about the changes. In Japan, an as-built drawing is created upon 
completion of a road construction work. This drawing is a 
topographical map of the site drawn after the work. The map 
together with a report is delivered to the client (see the diagram 
below). 
  
aw a Draw a detailed map with 
topographical intersections, constructions 
a and other information, if (1/1000 or more) (1/500 to 1/1000) 
necessary. 
As-built 
construction site. 
           
       
    
  
fm =e = (1/1000 or more) 
Topographicaly 
     
  
ropograph- 
        
    
     
  
   
  
  
      
          
    
    
   
ußısop pue uejd *qoxeosay 
  
(blueprint). survey. 
  
Figure 3. Flow of road construction 
The government has been encouraging use of the CALS/EC 
system since 2000 and has established guidelines on delivery of 
electronic document. More and more documents for public 
works are being delivered electronically. As-built drawings now 
have to be delivered as CAD data when the work is ordered by 
the national government. Increasingly, drawings for prefectures 
and municipalities also are being delivered as CAD data. This 
data constitutes the latest information on changes in roads and 
is useful in updating road data. 
ical map M map (1/500 or. 
(1/1000) sues [Work 
mm ' jueprint Create an 
' sate E T 
! as-built d eus 
x drawing E aman 
Road pre-desig Detailed design based on a nent 
the ordered b E ld 
" design y he 
  
as-t 
cor 
spa 
con 
ma 
dat: 
the 
If t 
4.2 
Ch: 
nev 
bui