slides

MRDB in Poland
Marcin Lebiecki
Head Office of Geodesy and Cartography
Amsterdam 03-04.12.2015
Presentation contains:
Aspects of law
Current state
Short presentation of source data - BDOT10k
Managing of generalization processes in KSZBDOT
Technology
Conclusions
Regulation of the Minister
of Interior and Administration
dated November 27, 2011
regarding the database of topographic objects,
and the database of general geographic objects,
as well as the standardized cartographic documents
BDOT10k
BDOO
Main part
Defines :
1) The scope of information collected in databases:
- of topographic objects;
- of general geographic objects.
2) Organization, procedures and technical standards for creating, updating and sharing of the
databases,;
3) Organization, procedures and technical standards for creating, updating and sharing the
standardized cartographic documents.
Annex 1
Common objects catalogue for BDOT10k and BDOO and basic model objects catalogue
Annex 2
Detailed classification of BDOT10k and BDOO objects on three levels of detail with coded
designations
Number of pages
7
193
8
Annex 3
UML application schema and GML schema for BDOT10k and BDOO databases
169
Annex 4
Guidelines concerning introduction of objects to BDOT10k database
18
Annex 5
Guidelines concerning introduction of objects to BDOO database
9
Annex 6
Technical standards for creating topographic map in scale 1 : 10 000
137
Annex 7
Technical standards for creating topographic map in scale 1 : 25 000
130
Annex 8
Technical standards for creating topographic map in scale 1 : 50 000
111
Annex 9
Technical standards for creating topographic map in scale 1 : 100 000
85
Annex 10
Technical standards for creating general geography map in scale 1 : 250 000
82
Annex 11
Technical standards for creating general geography map in scale 1 : 500 000
59
Annex 12
Technical standards for creating general geography map in scale 1 : 1000000
47
1055
651
One data model
for BDOT10k and BDOO
 One coherent model for BDOT10k and BDOO - DLM
 One coherent model for DCM for all scales
class sieć w odna
«FeatureType»
OT_ObiektTopograficzny
+
+
+
+
+
+
+
+
+
+
+
+
+
+
+
idIIP :BT_Identyfikator
czyObiektBDOO :Boolean
x_kod :CharacterString
x_katDoklGeom :OT_KatDokladnosci
x_doklGeom :Distance [0..1]
x_zrodloDanychG :OT_ZrodloDanych
x_zrodloDanychA :OT_ZrodloDanych
x_rodzajReprGeom :OT_RodzajReprGeom
x_uwagi :CharacterString [0..1]
x_uzytkownik :CI_ResponsibleParty
x_aktualnoscG :Date
x_aktualnoscA :Date
x_cyklZycia :BT_CyklZyciaInfo
x_dataUtworzenia :Date
x_informDodatkowa :CharacterString [0..1]
+
+
+
«voidable»
+ x_skrKarto :OT_SkrKarto
+ x_katIstnienia :OT_KatIstnienia
+ x_kodKarto10k :CharacterString
+ x_kodKarto25k :CharacterString
+ x_kodKarto50k :CharacterString
+ x_kodKarto100k :CharacterString
+ x_kodKarto250k :CharacterString
+ x_kodKarto500k :CharacterString
+ x_kodKarto1000k :CharacterString
«FeatureType»
OT_SWRS_L
+
+
+
+
+PRNG
«FeatureType»
OT_Ciek
okresowosc :Boolean
przebieg :OT_PrzebiegCieku
rodzaj :OT_RodzajRzeki
statusEksploatacji :OT_StatusEksploatacji [0..1]
idPRNG :CharacterString
nazwa :CharacterString
dlugosc :Length
0..1
«Union»
BT_ModelPodstaw ow y::
BT_Referencj aDoObiektu
+
idIIP :BT_Identyfikator
+BDOT500
0..*
+ci ek1
+siecWodna
0..*
«FeatureType»
OT_SiecWodna
+
+
BDOT10k
BDOO
idMPHP :CharacterString [0..1]
geometria :GM_Curve
«voidable»
+ polozenie :OT_PolozenieCieku
+ szerokosc :Distance
UML
«FeatureType»
OT_SWKN_L
«voidable»
+ okresowosc :Boolean
+ przebieg :OT_PrzebiegCieku
+ statusEksploatacji :OT_StatusEksploatacji
«FeatureType»
OT_SWRM_L
«voidable»
+ rodzaj :OT_RodzajRowuMelioracyjnego
Common
Conceptual Model
1:10 000
1:25 000
1:50 000
BDOT10k
1:10 000
1:100 000
cartographic generalisation
(contains details that
ensures the creation
of a standard
cartographic studies)
1:250 000
BDOO
1:500 000
1:250 000
cartographic generalisation
Registers of
other
authorities
and institutions
BDOO SUPPLY PROCESS model
generalisation (DLM generalisation)
FME Desktop and Server
1:1 000 000
Scope of database
of topographic objects
Classification of objects in three
levels of detail
1 level
Category object classes - 9
2 level
Objects class – 58
(74 – the division containing type of
data geometry)
3 level
Objects - 428
Lists – 10
2015-12-09 09:48
OT_Roadway
OT_ Power Station
OT_Road
OT_Railway
OT_ Line of Railway
OT_ Watercourse
OT_ Water Reservoir
OT_Port
OT_Airport
OT_Mine
Database of topographic
objects
 Administrative division units
 Road and railway networks
 Watercourse networks
 Utility networks
 Land cover complex
BDOT10k
 Land usage complex
 Protected areas
 Buildings, structures and equipment
 Other objects
Infrastructure for Spatial
Information
Coordinate reference systems
Geographical grid systems
Geographical names
Administrative units
Addresses
Cadastral parcels
BDOT10k
Transport networks
Elevation
Land cover
BDOT10k
Orthoimagery
Buildings
BDOT10k
Soil
Utility and governmental services
BDOT10k
Production and industrial facilities
BDOT10k
Area management/restriction/regulation
zones and reporting units
Example of MRDB approach in
BDOT10k
Two LoD’s for watercourses
Two LoD’s for watercourses within reservoirs
Managing of generalization
processes in KSZBDOT
Managing of generalization
processes in KSZBDOT
Technology used to generalization
process BDOT10k to BDOO
Technology:
• FME Desktop,
• FME Server,
• MRF2DCleaner.
FME used to generalization process
BDOT10k to BDOO
Part of selection process objects from BDOT10k - the first stage of generalization
FME used to generalization process
BDOT10k to BDOO
Process of DLM generalization for watercourses
FME used to generalization process
BDOT10k to BDOO
Part of process of DLM generalization for watercourses
BDOO
Comparison of selected elements from databases BDOO and BDOT10k for
the area of Warsaw
Legend:
-roads
-watercourses
-building area
-woodland
-grassland
BDOT10k and BDOO
Comparison for roads from databases BDOT10k and BDOO
- blue line – BDOT10k
- red line – BDOO
BDOT10k and BDOO
Watercourses and railway lines for voivodeship in BDOO database
- green – watercourses
- red – railway lines
BDOT10k and BDOO
Comparison for woodland from BDOT10k and BDOO
- blue – BDOT10k
- red line – BDOO
Conclusions
One coherent model for BDOT10k, BDOO – DLM, and one for
DCM (all LoD’s) helps in data management.
BDOO quality and degree of automation of generalization
precess depends largely on the quality of the BDOT10k database.
 Errors in directional network of watercourses influence the
effect of generalization process.
 We have to change the DLM generalisation process BDOT10k to
BDOO to fully automatic.
 We plan to build fully automatic DCM generalisation processes
for LoD’s 10k, 25k, 50k, 100k, 250k, 500k, 1000k.
[email protected]