This study employed the Analytic Hierarchy Process (AHP) method to assess sustainability criteria for High-Altitude Solar-Powered Unmanned Aerial Vehicles (UAVs). The findings revealed the overarching importance of environmental sustainability, highlighting the significance of energy efficiency and materials selection. Economic sustainability was identified as a vital dimension, emphasizing cost-effectiveness, revenue generation, and contributions to local economies. Furthermore, social sustainability dimensions underscored the importance of community engagement, ethical data practices, and skills development. The analysis of sub-criteria further elucidated the nuanced aspects of sustainability assessments, providing valuable guidance for stakeholders and decision-makers in the optimization of UAV technology while aligning it with sustainability objectives.

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Exploring the Sustainability Effects of High-Altitude UAV Components Using Multicriteria Decision Analysis

  • Murat Ayar,
  • Umut Durak,
  • T. Hikmet Karakoç

摘要

This study employed the Analytic Hierarchy Process (AHP) method to assess sustainability criteria for High-Altitude Solar-Powered Unmanned Aerial Vehicles (UAVs). The findings revealed the overarching importance of environmental sustainability, highlighting the significance of energy efficiency and materials selection. Economic sustainability was identified as a vital dimension, emphasizing cost-effectiveness, revenue generation, and contributions to local economies. Furthermore, social sustainability dimensions underscored the importance of community engagement, ethical data practices, and skills development. The analysis of sub-criteria further elucidated the nuanced aspects of sustainability assessments, providing valuable guidance for stakeholders and decision-makers in the optimization of UAV technology while aligning it with sustainability objectives.