PENGELOLAAN DATA PERTANAHAN MENJELANG 2014

Report
Slide 1

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 2

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 3

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 4

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 5

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 6

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 7

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 8

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 9

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 10

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 11

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


Slide 12

DR. Irawan Sumarto
Suyus Windayana
The National Land Agency
Republic of INDONESIA

ASIA Geospatial FORUM
Jakarta, 17-19 October 2011

Background:
 Estimated total number of Land Parcels ~ 80
Millions
 Total Land Registered ~ < 40 %
 Land is an asset  Bankable  improving
Living Poverty
 Land Data Management need specific
solution since:
 2 kind of data, textual and spatial
 Continuously updated and grows
 Living Archives





Combine juridical relation between land,
people with system of economics
Able to Specify for each geographic location
due to historical, cultural background
Maintained Local content with International
standards












Land Objects
Title registration
Documentation of public rights and restriction
Legal independence
Linking objects by geometry
Unification of Cadastre and Land Registry
Cadastral Modeling
IT
PPP
Cost Recovery

1.

2.
3.
4.
5.
6.

The cadastre of the future will show the complete legal
situation of land, including public rights and
restrictions!
Separation between maps and registers will be
abolished!
Cadastral mapping will be dead! Long live modeling!
Paper and pencil'-cadastre will have gone!
Cadastre of the future will be highly privatized! Public
and private sectors are working closely together!
Cadastre will be cost recovering.






ISO TC 211
Data modeling system do not influence
existing system
Consists of :
 LA Party for private, public, group of persons
 LA RRR for Registration, Restriction,

Responsibility
 LA Spatial Unit for land parcel
 Data History





Total number of data ~ 80 Million Land Parcels
Adoption of International Standards (LADM)
Centralized ICT System for:
 Efficiency of budget
 Simplicity of managing data and application
 Easy Access of data
 Security of data



Web 2.0 (2 ways of communication)
 Transparent and accuracy

BPN - Centralized ICT Architecture

Main Component
1.Workflow Management

System (WfMS)
2.Geospatial Information
System (GIS)
3.Document Management
System (DMS)

Enterprise architecture
1.based on job-desk
2.Infrastructure and security

between zone

communication
1.WAN (MPLS)
2.Internet ADSL





Web Services
OGC
Open standards for
 Internal BPN
 Public
 NSDI

Recent Development of
Centralized System :
“SIMTANAS and
SIMPADU”
 WEB 2.0:


 Transparency
 Accuracy Improvement
 Public Trust



Increasing number of
entry as well as
accuracy




Online Global Base Map (Google Map,
Microsoft, Yahoo, etc)
Land Data Modeling to support:
 Decision System
 Asset Management System
 Physical Planning Strategy

 Spatial Pattern


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