Anna Szafarczyk | Environmental Science | Best Researcher Award

Cracow University of Technology | Poland

Prof. Anna Szafarczyk is a dedicated researcher and academic affiliated with the Cracow University of Technology (Politechnika Krakowska), Poland. With a strong background in geodesy, geomatics, and environmental monitoring, she has established herself as an expert in the application of geospatial technologies for understanding natural hazards, terrain deformations, and sustainable land management. Her contributions span both theoretical and applied domains, where she integrates advanced surveying methods, LiDAR technologies, and remote sensing approaches to tackle environmental and engineering challenges. Prof. Szafarczyk’s research has been widely recognized in reputable international journals, including Sensors, KSCE Journal of Civil Engineering, and Acta Geodynamica et Geomaterialia. She is actively engaged in peer-review activities for high-impact journals such as Remote Sensing, Applied Sciences, Sensors, and Sustainability, reflecting her role as a critical evaluator in her field. Beyond her scholarly work, she contributes to interdisciplinary projects that address geotechnical risks, sustainable land use, and precision mapping. Her collaborations with colleagues both in Poland and internationally highlight her commitment to advancing geoscience research. With over verified reviews and multiple publications in the Web of Science Core Collection, Prof. Szafarczyk has built a respected academic presence and continues to contribute to the advancement of geomatics and environmental sustainability.

Publication Profile

‪Google Scholar‬

Education

Prof. Anna Szafarczyk pursued her academic career in geodesy and surveying sciences at the Cracow University of Technology (Politechnika Krakowska), one of Poland’s leading institutions in engineering and applied sciences. Her educational journey began with a strong foundation in mathematics, physics, and earth sciences, which prepared her to specialize in geospatial engineering. During her studies, she focused on advanced surveying methods, cartography, photogrammetry, and remote sensing technologies, gaining the expertise required to investigate terrain deformation and environmental processes. Her postgraduate research centered on landslide monitoring and the integration of geodetic measurements with geophysical analysis, a field that combines precision engineering with natural hazard assessment. She was actively engaged in both field-based measurements and computational modeling, which allowed her to explore the dynamics of geotechnical risks in complex terrains. Throughout her academic training, she developed strong technical skills in geospatial data analysis, spatial modeling, and the use of emerging technologies such as LiDAR for bathymetric and terrestrial applications. This rigorous educational background equipped Prof. Szafarczyk with the necessary expertise to address complex issues of geotechnical engineering, natural hazard monitoring, and land use sustainability. It also provided the intellectual foundation for her later research contributions and academic collaborations.

Experience

Prof. Szafarczyk has built extensive academic and professional experience as a researcher and lecturer at the Cracow University of Technology. Her career has been characterized by interdisciplinary engagement across geodesy, geomatics, and environmental engineering. She has participated in multiple national and international projects related to terrain monitoring, environmental risk management, and the use of advanced surveying techniques for sustainable land planning. She has published in peer-reviewed journals and presented her findings at scientific conferences, where she has contributed to the global dialogue on geotechnical monitoring and sustainable development. Her expertise extends to LiDAR bathymetry, spatial deformation analysis, and agricultural land use planning, reflecting her ability to address both technical and environmental challenges. As a reviewer for prestigious journals, she has provided for publishers such as MDPI and Springer Nature, demonstrating her academic credibility and recognition within the scientific community. She has collaborated with colleagues on projects involving geomechanics, geophysics, and environmental engineering, contributing both methodological insights and applied solutions. Through her teaching, supervision, and project involvement, she has influenced the next generation of engineers and geoscientists. Her career reflects a strong balance between research, academic service, and applied geoscience.

Honors and Awards

Prof. Szafarczyk’s academic achievements and contributions have earned her recognition through professional visibility in international indexing databases such as Web of Science, where she holds a verified. Her work has been cited in multiple scientific studies, reflecting the impact and applicability of her research. Her role as a peer reviewer for globally recognized journals such as Remote Sensing, Applied Sciences, Sensors, and Sustainability demonstrates her standing as an expert evaluator in her discipline. Contributing over is a mark of academic honor and highlights the trust placed in her judgment by editorial boards. The inclusion of her work in top international journals, including Sensors and the KSCE Journal of Civil Engineering, underlines her research quality and scholarly influence. Furthermore, her research collaborations with leading geoscientists and environmental engineers showcase her recognition as a reliable partner in scientific networks. While specific institutional or national awards are not listed in her profile, her sustained scholarly productivity, peer-review contributions, and presence in Web of Science metrics collectively serve as professional honors that highlight her expertise and contributions to the field of geodesy, geomatics, and environmental sustainability.

Research Focus

Prof. Szafarczyk’s research centers on geodesy, geomatics, and the application of geospatial technologies for environmental monitoring, terrain deformation, and sustainable land management. A significant part of her work explores the use of LiDAR, particularly green laser technology, in bathymetric applications, advancing the precision of underwater topography mapping. She has also investigated surface interpolation methods for landslide monitoring, developing techniques to enhance the accuracy of geotechnical risk assessment. Her studies on ground deformation and geodetic measurements contribute to understanding the spatial dynamics of unstable terrains, such as landslide-prone areas and anthropogenic mounds. By combining geodetic monitoring with advanced analytical tools, she provides valuable insights into spatial deformation processes, which are essential for environmental engineering and urban safety. Another dimension of her research addresses the designation of agricultural land for investment purposes, balancing development with environmental sustainability. This reflects her broader focus on integrating geospatial science with sustainable land-use planning. Her interdisciplinary approach combines surveying, remote sensing, geomechanics, and geophysics, ensuring that her work contributes to both theoretical advancements and practical applications. Overall, her research contributes to building safer, more sustainable environments by leveraging cutting-edge geospatial tools and methodologies.

Publications

• The Use of Green Laser in LiDAR Bathymetry: State of the Art and Recent Advancements

• The Use of Surface Interpolation Methods for Landslides Monitoring

• Case Study of the Tensor Analysis of Ground Deformations Evaluated from Geodetic Measurements in a Landslide Area

• Description of the Spatial Deformation Process in Selected Cracow Mounds Based on the Surveying Monitoring Data

• Designating Agricultural Land for Investment Purposes and the Requirements of Environmental Sustainability