The scope of work carried out at the Department of Geodesy and Spatial Information includes the following research topics:

1. Analysis of GNSS Permanent Station Coordinates

Objective of the research:

Comparison of the E, N, H coordinates of GNSS permanent stations.

Planned scientific and practical outcomes:

The conducted analyses will allow for the assessment of the impact of GNSS permanent station coordinate accuracy on the precision of newly established GNSS points for practical geodetic measurements. These analyses will help determine the best configuration and number of GNSS permanent stations for practical static, RTN, and RTK measurements, used in: land consolidation projects, engineering works, and environmental protection and management.

2. Spatial Analyses and Land Management of Agricultural, Forestry, and Urban Areas Using Modern Scientific and Technological Achievements

Objectives of the research:

• Monitoring and assessment of natural and anthropogenic spatial processes using modern geodetic techniques;
• Monitoring, inventory, and diagnostics of selected elements of transport infrastructure, utility networks, and other construction facilities using advanced geodetic techniques;
• Assessment of the land and building registry status, considering the possibility of implementing a multidimensional cadastre;
• Improvement of land consolidation planning and execution methodologies, taking into account factors affecting urgency, complexity, and task efficiency;
• Evaluation of the technical and spatial potential for renewable energy production from selected sources, using spatial information systems and artificial neural networks.

Planned scientific and practical outcomes:

• Determination of the suitability of selected geodetic techniques for monitoring, documenting, and visualizing natural and anthropogenic processes occurring in space;
• Establishing relationships between spatial conditions and the quantitative and qualitative characteristics of selected environmental components, which can be used in the preparation of planning and strategic documents;
• Verification of the potential use of geodetic techniques and artificial neural networks for identifying and diagnosing technical infrastructure elements;
• Assessment of spatial structure and land-use changes, along with the development of a ranking system for prioritizing land consolidation projects;
• Evaluation of the organizational, economic, and environmental impacts of land consolidation;
• Identification of legal and technical barriers and development of recommendations for implementing changes in the cadastral system;
• Increasing the efficiency of renewable energy production (optimizing technological processes based on accurate performance forecasts), optimizing investment planning (site selection, legal process acceleration), and improving substrate supply management and transport route planning.