Spatial information systems and registration tools. Technology and prerequisites for the development of Cadastral Systems. Design Principles. Quality of processes and services.
2. The Cadastre as a Spatial Information System. Cadastre and Land Administration Systems as Management and Decision-Making Tools. Land Management. Land Governance. E-Government.
3. Land Policy: Basic principles and concepts, history of development, relationships, interdependencies, and interactions at the constitutional, legislative, and technical level. The Land Policy in Greece in relation to the legislative regulation efforts for the Hellenic Cadastre. Evaluation of the characteristics of the Land Policy practiced in Greece.
4. Economic dimensions of real estate, Tax Policy.
5. Public and Ecclesiastical property.
6. Urbanization. Land Use Changes.
7. Arbitrary building, illegal constructions, Greek housing policy. Trends and data.
8. Forest Land in Greece. Registration needs and development options.
9. 3D Cadastre. 3D modelling capabilities: tools and methods. 3D Cadastre development levels. Technology for 3D data management.
10. Spatial data of the maritime space of coastal States. Greek data. International experience, trends and standardization needs.
11. Multi-criteria analysis and decision-making method, Analytical Hierarchy Process (AHP) for land policy options.
12. The future of Land Administration Systems. Standardization, reforms, and trends. INSPIRE Directive, LADM, 3D Land Administration Systems, LifeCycle Thinking.
- Teacher: Έφη Δημοπούλου
- Teacher: Χρυσή Πότσιου
ECTS : 5
Language : el
Learning Outcomes : The learning outcomes of the course Cadastre Systems and Land Policy of the 8th semester, the specific knowledge, skills and abilities of appropriate level that students will acquire after its successful completion are: • To have a level of knowledge, as a product of understanding basic principles, scientific theories and applications in the field of modern Cadastre Systems, covering their technical, legal and economic dimension within their evolutionary process. More specifically, our students: o will learn about new technologies in cadastral data standardization, three-dimensional modeling, e-governance, decision-making systems and development of web cadastral applications in a programming environment o will become familiar with the multidimensional capabilities of cadastral systems as a design and development infrastructure, for the delineation and implementation of measures for the application of reliable Land Policy at all levels o will critically examine issues related to modern land management systems and their development trends at an international level o will synthesize the knowledge of individual scientific fields related to land management systems in a programming environment. • To have skills that will allow them to solve complex technical, legal and economic issues in the modern reality of cadastral systems and generally land management systems using cutting-edge technological tools. More specifically: o to categorize, manage and propose scenarios and developmental processes using cutting-edge technological methods and tools o to conduct technical, social/economic and legal research on land management issues, recording all their dimensions o to use the knowledge acquired to analyze and present graphically issues related to space and its transformation over time. • To have the ability to make correct decisions on issues related to spatial planning and more specifically: o to select the appropriate data, analyze and interpret them, co-utilizing their critical perception of spatial planning issues, providing solutions and perspectives o to utilize modern techniques and methods related to the compilation, maintenance and updating of cadastral systems and land and environmental information systems o to utilize international trends and European directives, as well as good practices in the field.