Special Session Ⅱ

Advanced Experimental and Design Technologies for Low-Altitude Aircraft in Complex Environments



Chair: 



Liang Wang


Tsinghua University, China



Keywords:

Topics:

  • Low-altitude Aircraft

  • Multiscale Experiments

  • Integrated Optimization Design

  • Aerodynamic Performance

  • Reliability Assessment

  • Experimental Techniques and Data Analysis for Low-altitude Aircraft Under Complex Cl-imatic, Terrain, and Interference Conditions

  • Development and Application of Multiscale Experimental Platforms and Advanced Mea-surement Technologies

  • Integrated Optimization Design Methods to Enhance Aerodynamic Performance and St-ructural Reliability

  • Case Studies and Theoretical Research on Model Simulation, System Integration, and Experimental Validation


Summary:
This session focuses on experimental techniques and design optimization for low-altitude aircraft operating in complex environments. It aims to achieve a comprehensive evaluation and enhancement of the aerodynamic performance, structural reliability, and control stability of these aircraft through multiscale experimental methods, advanced data acquisition and analysis, and integrated optimization design. The scope includes experimental validation in complex conditions, system modeling, and multidisciplinary cross-technology efforts, striving to address the key technical challenges posed by harsh weather, complex terrain, and interference. The goal is to provide theoretical support and practical engineering solutions for design innovation and the safe, efficient operation of low-altitude aircraft.