Educational degree "Bachelor"

Approximate topics of bachelor's qualification works for applicants for higher education in specialty 193 "Geodesy and Land Management":

Land management:

1. Development of land management projects taking into account the ecological sustainability of agricultural landscapes

(Relevance: creation of projects that contribute to the restoration of the natural potential of land).
2. Geodetic work in the formation of optimal crop rotations: ecological and economic justification

(Relevance: combining geodetic research with the needs of sustainable agricultural production).
3. Modeling of restrictions in land use for areas with increased erosion risk

(Relevance: prevention of erosion processes by creating and implementing adaptive restriction models).
4. Development of digital terrain models for optimizing land management projects and agro-landscape management

(Relevance: use of digital technologies to increase the accuracy of land work planning).
5. Integration of geodetic data and remote sensing systems to create maps of land use restrictions

(Relevance: combination of different data sources to form effective land use restrictions).
6. Methodology for assessing the ecological stability of agricultural landscapes using remote sensing data

(Relevance: application of modern technologies for analyzing and increasing the ecological stability of lands).
7. Formation of geographic information systems for monitoring land quality in agricultural areas

(Relevance: automation of land analysis processes to ensure effective management).
8. Design of optimal crop rotations on degraded lands taking into account geodetic data

(Relevance: ensuring the restoration of degraded lands through effective land use planning).
9. The impact of land use restrictions on the formation of erosion hazard zones: a geodetic approach

(Relevance: reducing the impact of erosion processes through the application of effective restrictions).

10. Development of a monitoring system for coastal zones and land reclamation systems using remote sensing

(Relevance: ensuring sustainable management of water resources and adjacent territories).

11. Modeling optimal land use burdens to prevent anthropogenic land degradation

(Relevance: minimizing anthropogenic impact on soils through the introduction of restrictions).

12. Creation of basic geodetic networks for comprehensive monitoring of the state of land resources

(Relevance: ensuring the accuracy and relevance of data for land management).

Working design of land management solutions:

1. Development of a working land management project for areas with an increased risk of erosion

(Relevance: creation of practical projects to reduce erosion processes and improve land productivity).
2. Design of land use restriction zones to protect water conservation areas

(Relevance: ensuring environmental sustainability through proper land zoning).
3. Development of a working project to optimize agricultural landscapes taking into account land reclamation systems

(Relevance: creation of effective landscape structures to preserve the natural environment).
4. Creation of a working land management project to integrate infrastructure facilities into agricultural areas

(Relevance: reduction of conflicts between different types of land use).
5. Development of a land consolidation project to ensure effective management of community territories

(Relevance: increasing the efficiency of land use through the consolidation of plots).
6. Designing areas for the construction of solar power plants taking into account land use restrictions
(Relevance: ensuring sustainable energy development without harming ecosystems).
7. Development of a working project to optimize the use of pasture lands in mountainous areas
(Relevance: preserving the ecological balance and increasing the efficiency of land use).

Photogrammetry and remote sensing:

1. Creation of three-dimensional models of territories for land use planning on degraded and erosion-prone lands
(Relevance: implementation of 3D models for more accurate land management).
2. Assessment of changes in agricultural landscapes under the influence of climatic factors based on satellite images
(Relevance: taking into account climate change for sustainable land use).
3. Integration of photogrammetry and satellite sensing data for the formation of agroecological passports of land plots
(Relevance: ensuring accurate analysis of soil condition and land use for sustainable development).
4. Development of maps of land use restrictions based on multispectral satellite images
(Relevance: creation of cartographic materials for substantiation of land use).
5. Application of remote sensing data for monitoring land in emergency zones
(Relevance: rapid assessment of land condition for decision-making during crisis situations).
6. Photogrammetric analysis of the spatial structure of agricultural landscapes for improving land use
(Relevance: using accurate models to optimize land use and protect landscapes).
7. Integration of photogrammetric and satellite data to determine the level of land degradation in regions of intensive land use
(Relevance: an integrated approach to land monitoring).
8. Development of a methodology for assessing agricultural land productivity based on NDVI and photogrammetric data
(Relevance: fast and accurate assessment of vegetation status to improve management).
9. Application of photogrammetric methods to monitor the implementation of land management projects
(Relevance: improving the quality of land management implementation through visualization of processes).
10. Monitoring changes in the coastline and adjacent lands using remote sensing data
(Relevance: ensuring sustainable management of coastal areas).
11. Photogrammetric analysis of territories to assess the impact of infrastructure projects on land use
(Relevance: use of accurate models to assess the impact of infrastructure projects on land use).

Post-war reconstruction:

1. Use of remote sensing to assess land resource losses and monitor recovery after military operations
(Relevance: operational monitoring and planning of recovery measures).
2. Adaptation of land management systems to the needs of post-war recovery of Ukraine
(Relevance: improvement of legal and technical support for land management in reconstruction conditions).
3. Development of land consolidation projects to restore the production potential of rural communities after the war
(Relevance: enlargement of land plots to improve the efficiency of agricultural production).
4. Ecological and economic justification for the restoration of degraded lands in war zones
(Relevance: development of measures to minimize economic losses and restore the ecological balance).

Adaptation to climate change:

1. Development of measures for adaptation of agricultural lands to climate change: spatial planning
(Relevance: integration of climate risks into land use planning).
2. Modeling of crop rotation as an element of adaptation to climate change on degraded lands
(Relevance: ensuring ecological sustainability and restoring land productivity).
3. Integration of environmental protection measures into land management projects to preserve land in the context of climate change
(Relevance: development of innovative methods of land protection from erosion and degradation).
4. Monitoring of arid zones of Ukraine using remote sensing for adaptation of agricultural landscapes to climate change
(Relevance: creation of adaptation strategies based on modern data).
5. Development of projects of land reclamation systems for adaptation to increasing aridity in Ukraine
(Relevance: increasing the efficiency of irrigated land use).
6. Formation of ecological corridors as an element of adaptation of agricultural landscapes to climate change
(Relevance: ensuring biodiversity and ecosystem sustainability).