inbul 2004 
quired 
Center 
ad the 
nt will 
' Data 
ers for 
center 
> in the 
of the 
ter the 
lisaster 
t their 
covery 
ns will 
tutions 
y them 
ssions. 
epared 
ill be 
access 
taining 
je used 
ns of 
oducts, 
)). 
plying 
ge of 
ration, 
enable 
nabled 
ressing 
ems 
spatial 
global 
loping 
ns and 
e the 
ations, 
es for 
all and 
entury. 
ns are 
iges of 
ng the 
| GSDI 
d as a 
many 
EN/TC 
studies 
:quired 
International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXXV, Part B4. Istanbul 2004 
  
standards for the establishment of GIS are as follows 
(FGDC, 1996): 
e Data standards 
— Data classification 
— Data content 
— Data symbology or presentation 
— A Data transfer 
— A Data usability 
e Process standards 
— General (specific) data transfer 
procedures 
— Existing data access procedures 
— A Classification methodology 
— Data collection 
— Storage procedures 
— Presentation standards 
— Data analyzing procedures 
— Data integration 
- Quality control and quality assurance 
Nowadays, addition to these standards, copyright, publish 
over internet etc. topics are added to the standards, and 
documentation with CASE tools, project management 
etc. topics will be added soon. 
As far as GI (Geographic Information) standards are 
concerned, GI actors first grouped themselves either on a 
national or a professional basis. Thus national groups 
gave birth to a first generation of national 'de jure' 
standards such as National Transfer Format (NTF) in the 
UK, EDIGéO in France, Spatial Data Transfer Standard 
(SDTS) in the USA and Spatial Archive and Interchange 
Format (SAIF) in Canada. Professionals also organized 
themselves into international groups to create a first 
generation of 'de facto' standards such as: Digital 
Geographic Information Exchange Standard (DIGEST) 
by the Digital Geographic Information Working Group 
(DGIWG) of NATO, Transfer standard for digital 
hydrographic data (DX-90/S57) of the International 
Hydrographic Organization (IHO) and Geographic Data 
File (GDF) by the automotive industry (Frank, 2000). 
Whilst the digital spatial data standards were taken part in 
four groups as institutional, regional, national, and 
international standards, nowadays the groups are became 
global-national standards owing to globalization efforts 
like internet, e-Government and eEuropa. Nowadays, 
"interoperability" concept is being researched and applied 
for both the applications and the data. 
4. AFAYBIS GIS STANDARDS 
As far as eEuropa+ and e-Government (conversion) 
action plans are concemed which are approved by 
Turkish Government, it is notified that the current 
standards will be used in actions directly or they will be 
used after adapting them. Nevertheless, new standards 
will be developed if necessary (EU a, 2002; b, 2001; 
Circular, 2003). 
Nowadays, INSPIRE (Infrastructure for Spatial 
Information in Europe) project has been carried out for 
spatial data infrastructure for entire Europe (INSPIRE, 
2004). It is planned EU Countries to make available their 
core data and some thematic data over internet by 2015, 
in direction of INSPIRE project standards and methods. 
185 
Therefore, member of EU countries and candidate 
countries of EU are struggling to establish their own 
NSDI. However the studies are being carried out for 
years in some countries, the standards are not shared. 
INSPIRE working groups are cooperating with ISO/TC 
211 and adapting those standards to EU. Turkey is one of 
the countries in the world which can not achieve the 
NSDI. Some studies were made, however not finalized 
(UBS, 1999). The 47" action of e-Government Circular 
of Turkey is directly and 10 action of it is indirectly 
related to NSDI and GIS. TKGM (General Directorate of 
Land Registry and Cadastre) is planning to prepare a 
report about this topic by 2004. Consequently, AFAYBIS 
project is carried out according to the directions of 
INSPIRE and ISO/TC 211. 
After examination of the all standards and formations, It 
has been decided to prepare feature attribute coding 
catalogue (FACC), metadata, quality, application schema, 
product, transformation, web portal and web mapping 
standards and data model with UML. The standards of 
the AFAYBIS project presented in the following sections 
will be completed when 2" and 3™ phases of the project 
are finished. The data which is collected from the 
institutes will be converted in to required form of 
standards in the beginning; afterwards data will be 
obtained for updates in the form of the project standards. 
4.1 The Data Standards 
The topics covered by the data standard are as follows: 
e Data classification, content 
e Digitization, accuracy and quality 
e Exchange format 
e Standards of documenting 
Mainly, FACC, metadata, data exchange with GML and 
representation of models with UML are full filling the 
requirements of this standard. 
4.1.1 Feature Attribute Coding Catalogue (FACC): 
The existing FACCs in Turkey are as follows: 
e  TABIS (Turkey Disaster Information System); 
A Catalogue developed for the topography and 
disaster management data in the accuracy of 
1/5000 scaled map (ITU, 2002) 
e Feature catalogue of regulations of large scaled 
map and production of the map data (Proposal) 
(HKMO, 2002). 
e General Command of Mapping- DIGEST 
FACC; A scale independent catalogue. 
e National Information System (FACC): A 
catalogue based on DIGEST- FACC (UBS, 
1999). 
As different from catalogues above, it is required to take 
part the feature relationships and optionally operations 
according to the ISO 19110 "Geographic Information - 
Methodology for Feature Cataloguing” rules. 
Additionally these are needed to be available in digital 
form. As far as the existing catalogues are considered in 
Turkey, one of the most suitable catalogues for ISO 
19110 rules is TABIS. However, this catalogue is not 
including the feature relationships, operations and 
required some features and attributes.