期刊名：Drones

期刊主页：https://www.mdpi.com/journal/drones

无人机机翼设计是无人机研发中的关键环节，它直接影响无人机的飞行性能、续航能力和操控稳定性。机翼的形状、尺寸、材料以及空气动力学特性都需要经过精心优化，以适应不同的飞行任务和环境条件。如果您还在为筛选文献而发愁？别急，这份“计算与人工智能”方向的文献清单，也许能为您提供灵感！

1.

英文标题: Aero-Propulsive Interactions between UAV Wing and Distributed Propellers Due to Their Relative Position

中文标题: 无人机机翼与分布式螺旋桨之间相对位置的气动推进相互作用

文章链接：https://www.mdpi.com/2504-446X/7/1/49

MDPI引用格式:

Ciliberti, D.; Della Vecchia, P.; Orticalco, V.; Nicolosi, F. Aero-Propulsive Interactions between UAV Wing and Distributed Propellers Due to Their Relative Position. Drones 2023, 7, 49.

2.

英文标题：On the Dynamics of Flexible Wings for Designing a Flapping-Wing UAV

中文标题：扑翼无人机柔性机翼动力学设计研究

文章链接：https://www.mdpi.com/2504-446X/8/2/56

MDPI引用格式：Silva, R.C.; Bueno, D.D. On the Dynamics of Flexible Wings for Designing a Flapping-Wing UAV. Drones 2024, 8, 56.

3.

英文标题：Dynamic Analysis and Experiment of Multiple Variable Sweep Wings on a Tandem-Wing MAV

中文标题：串列微型飞行器多可变后掠翼动力学分析与试验

文章链接：https://www.mdpi.com/2504-446X/7/9/552

MDPI引用格式：Gao, L.; Zhu, Y.; Zang, X.; Zhang, J.; Chen, B.; Li, L.; Zhao, J. Dynamic Analysis and Experiment of Multiple Variable Sweep Wings on a Tandem-Wing MAV. Drones 2023, 7, 552.

4.

英文标题：Sensitivity Analysis of Unmanned Aerial Vehicle Composite Wing Structural Model Regarding Material Properties and Laminate Configuration

中文标题：无人机复合材料机翼结构模型对材料性能及层合板结构的灵敏度分析

文章链接：https://www.mdpi.com/2504-446X/9/2/99

MDPI引用格式：Kierzkowski, A.; Wróbel, J.; Milewski, M.; Filippatos, A. Sensitivity Analysis of Unmanned Aerial Vehicle Composite Wing Structural Model Regarding Material Properties and Laminate Configuration. Drones 2025, 9, 99.

5.

英文标题：Beyond Conventional Drones: A Review of Unconventional Rotary-Wing UAV Design

中文标题：超越传统无人机：非常规旋翼无人机设计回顾

文章链接：https://www.mdpi.com/2504-446X/9/5/323

MDPI引用格式：Li, M. Beyond Conventional Drones: A Review of Unconventional Rotary-Wing UAV Design. Drones 2025, 9, 323.

6.

英文标题：Performance Estimation of Fixed-Wing UAV Propulsion Systems

中文标题：固定翼无人机推进系统性能评估

文章链接：https://www.mdpi.com/2504-446X/8/9/424

MDPI引用格式：Etewa, M.; Hassan, A.F.; Safwat, E.; Abozied, M.A.H.; El-Khatib, M.M.; Ramirez-Serrano, A. Performance Estimation of Fixed-Wing UAV Propulsion Systems. Drones 2024, 8, 424.

7.

英文标题：Aerodynamic Analysis and Application of the Channel Wing Configuration Based on the Actuator Disk Model

中文标题：基于作动盘模型的通道翼布局气动分析及应用

文章链接：https://www.mdpi.com/2504-446X/9/6/443

MDPI引用格式：Cao, M.; Liu, K.; Wei, J. Aerodynamic Analysis and Application of the Channel Wing Configuration Based on the Actuator Disk Model. Drones 2025, 9, 443.

8.

英文标题：Experimental Investigation of Aerodynamic Interaction in Non-Parallel Tandem Dual-Rotor Systems for Tiltrotor UAV

中文标题：倾转旋翼无人机非平行串列双旋翼系统气动干扰试验研究

文章链接：https://www.mdpi.com/2504-446X/9/5/374

MDPI引用格式：Zhu, H.; Du, Y.; Nie, H.; Xin, Z.; Geng, X. Experimental Investigation of Aerodynamic Interaction in Non-Parallel Tandem Dual-Rotor Systems for Tiltrotor UAV. Drones 2025, 9, 374.

9.

英文标题：FUR-DETR: A Lightweight Detection Model for Fixed-Wing UAV Recovery

中文标题：FUR-DETR：用于固定翼无人机回收的轻量级检测模型

文章链接：https://www.mdpi.com/2504-446X/9/5/365

MDPI引用格式：Yao, Y.; Wu, J.; Hao, Y.; Huang, Z.; Yin, Z.; Xu, J.; Chen, H.; Pi, J. FUR-DETR: A Lightweight Detection Model for Fixed-Wing UAV Recovery. Drones 2025, 9, 365.

10.

英文标题：Uncertainty Control Method for Non-Uniform Wear of the Driving Mechanism of Flapping Wing Aircraft

中文标题：四倾转翼无人机实时最优控制设计

文章链接：https://www.mdpi.com/2504-446X/9/4/282

MDPI引用格式：Jin, Y.; Chen, X.; Wang, K.; Jiang, D.; Liu, J.; Pang, H. Uncertainty Control Method for Non-Uniform Wear of the Driving Mechanism of Flapping Wing Aircraft. Drones 2025, 9, 282.

11.

英文标题：Computational Fluid Dynamics (CFD)-Enhanced Dynamic Derivative Engineering Calculation Method of Tandem-Wing Unmanned Aerial Vehicles (UAVs)

中文标题：计算流体力学（CFD）增强的串列无人机双翼动态导数工程计算方法

文章链接：https://www.mdpi.com/2504-446X/9/4/231

MDPI引用格式：Ye, B.; Li, J.; Li, J.; Liu, C.; Wang, Z.; Yang, Y. Computational Fluid Dynamics (CFD)-Enhanced Dynamic Derivative Engineering Calculation Method of Tandem-Wing Unmanned Aerial Vehicles (UAVs). Drones 2025, 9, 231.

12.

英文标题：The Design of Improved Series Hybrid Power System Based on Compound-Wing VTOL

中文标题：基于复合翼垂直起降飞机的改进型串联混合动力系统设计

文章链接：https://www.mdpi.com/2504-446X/8/11/634

MDPI引用格式：An, S.; Cai, G.; Peng, X.; Dai, M.; Yang, G. The Design of Improved Series Hybrid Power System Based on Compound-Wing VTOL. Drones 2024, 8, 634.

13.

英文标题：Investigation of a Tube-Launched Unmanned Aerial Vehicle with a Variable-Sweep Wing

中文标题：可变后掠翼管射无人机研究

文章链接：https://www.mdpi.com/2504-446X/8/9/474

MDPI引用格式：Si, P.; Wu, M.; Huo, Y.; Wu, Z. Investigation of a Tube-Launched Unmanned Aerial Vehicle with a Variable-Sweep Wing. Drones 2024, 8, 474.

14.

英文标题：Wind Tunnel Balance Measurements of Bioinspired Tails for a Fixed Wing MAV

中文标题：固定翼微型飞行器仿生尾翼的风洞平衡测量

文章链接：https://www.mdpi.com/2504-446X/8/1/16

MDPI引用格式：Bardera, R.; Rodríguez-Sevillano, Á.A.; Barroso, E.; Matías, J.C.; Sor Mendi, S. Wind Tunnel Balance Measurements of Bioinspired Tails for a Fixed Wing MAV. Drones 2024, 8, 16.

15.

英文标题：HiFly-Dragon: A Dragonfly Inspired Flapping Flying Robot with Modified, Resonant, Direct-Driven Flapping Mechanisms

中文标题：HiFly-Dragon：一款仿蜻蜓的扑翼飞行机器人，采用改进的共振直驱扑翼机构

文章链接：https://www.mdpi.com/2504-446X/8/4/126

MDPI引用格式：Ma, H.; Gong, P.; Tian, Y.; Wu, Q.; Pan, M.; Yin, H.; Liu, Y.; Chen, C. HiFly-Dragon: A Dragonfly Inspired Flapping Flying Robot with Modified, Resonant, Direct-Driven Flapping Mechanisms. Drones 2024, 8, 126.