Thesis Abstract

Abstract
Unmanned Aerial Vehicles (UAVs) have emerged as a disruptive technology with significant potential to revolutionize land surveying and mapping practices. This thesis investigates the application of UAVs in land surveying and mapping and explores their impact on traditional surveying methods. The study focuses on the benefits, challenges, and implications of integrating UAV technology into surveying workflows. The research begins with a comprehensive review of the literature on UAV technology, land surveying techniques, and mapping methodologies. This review provides a foundation for understanding the current state of UAV applications in the field of geospatial science and highlights the potential advantages of using UAVs for land surveying and mapping tasks. Drawing on this literature review, the research methodology section details the approach taken to investigate the application of UAVs in land surveying and mapping. The methodology includes data collection methods, survey design, UAV mission planning, data processing techniques, and quality control procedures. By employing a systematic approach, the study aims to generate reliable and accurate results that contribute to the existing body of knowledge in this field. The findings of the study are presented in the discussion section, which analyzes the outcomes of UAV-based land surveying and mapping projects. The discussion covers various aspects such as accuracy assessment, efficiency gains, cost-effectiveness, data quality, and practical considerations for UAV deployment in surveying workflows. By critically evaluating the results, the study identifies key success factors and challenges associated with integrating UAV technology into traditional surveying practices. The conclusion summarizes the key findings of the research and provides insights into the implications of using UAVs for land surveying and mapping. The study concludes that UAVs offer significant advantages in terms of data acquisition, efficiency, and cost savings compared to conventional surveying methods. However, challenges related to data processing, regulatory compliance, and technology limitations must be addressed to fully realize the potential of UAVs in land surveying and mapping applications. In conclusion, this thesis contributes to the growing body of knowledge on UAV technology in the field of land surveying and mapping. By exploring the benefits and challenges of using UAVs for surveying purposes, this study provides valuable insights for researchers, practitioners, and decision-makers seeking to leverage UAV technology for geospatial applications. The findings of this research have implications for improving surveying practices, enhancing data quality, and advancing the field of geospatial science through the integration of UAV technology.

Thesis Overview