A hybrid thrusting system for increasing the endurance time of multirotor unmanned aerial vehicles

IF 2.3 4区 计算机科学 Q2 Computer Science
Jawad Bdour, B. Sababha
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引用次数: 1

Abstract

One of the most significant disadvantages of electric multirotor unmanned aerial vehicles is their short flight time compared to fuel-powered unmanned aerial vehicles. This is mainly due to the low energy density of electric batteries. Fuel has much more energy density when compared to batteries. Electric-powered motors in multirotor unmanned aerial vehicles cannot be replaced with fuel-based engines because the stability and control of multirotor unmanned aerial vehicles rely on the high response rates of electric motors. One of the possible solutions to overcome this problem of short endurance times is by using hybrid thrusting systems that combine the advantages of both fuel and electrical propulsion systems, where high maneuverability and long endurance flight time could be achieved. In this work, hybrid thrusting and power systems for multirotor unmanned aerial vehicles are studied. Targeted hybrid thrusting systems consist of combustion engines, electric motors, and their power sources. Then a hybrid thrusting system-based quadrotor unmanned aerial vehicle model is developed. The article presents the altitude and attitude control systems of the developed hybrid thrusting system-based unmanned aerial vehicle. The presented hybrid quadcopter model comprises four electric motors and one fuel engine. The fuel engine used in this work is a 4.07 cc internal combustion engine targeting 2–3 kg unmanned aerial vehicles with up to 5 kg maximum takeoff weight. The developed hybrid quadrotor unmanned aerial vehicle achieved a 139% improvement in flight time when compared with traditional electric-based quadrotor unmanned aerial vehicles. The article also reports on other flight time-related issues such as the optimal fuel mass to battery size ratio to maximize the endurance time of the quadrotor unmanned aerial vehicles.
一种提高多旋翼无人机续航时间的混合推力系统
与燃油动力无人机相比,电动多旋翼无人机最显著的缺点之一是飞行时间短。这主要是由于电池的能量密度低。与电池相比,燃料具有更高的能量密度。由于多旋翼无人机的稳定性和控制依赖于电动机的高响应率,因此多旋翼无人机的电动电机无法被燃油发动机所取代。解决续航时间短问题的一个可能的解决方案是使用混合推进系统,该系统结合了燃料推进系统和电力推进系统的优点,可以实现高机动性和长续航飞行时间。本文研究了多旋翼无人机的推力与动力混合系统。目标混合推力系统由内燃机、电动机及其动力源组成。然后建立了基于混合推力系统的四旋翼无人机模型。本文介绍了研制的基于混合推力系统的无人机的高度和姿态控制系统。所提出的混合四轴飞行器模型由四个电动机和一个燃油发动机组成。在这项工作中使用的燃料发动机是4.07 cc内燃机,目标是2-3公斤的无人机,最大起飞重量高达5公斤。研制的混合动力四旋翼无人机与传统电动四旋翼无人机相比,飞行时间提高了139%。文章还报告了其他飞行时间相关的问题,如最佳燃料质量与电池尺寸比,以最大限度地提高四旋翼无人机的续航时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
6.50
自引率
0.00%
发文量
65
审稿时长
6 months
期刊介绍: International Journal of Advanced Robotic Systems (IJARS) is a JCR ranked, peer-reviewed open access journal covering the full spectrum of robotics research. The journal is addressed to both practicing professionals and researchers in the field of robotics and its specialty areas. IJARS features fourteen topic areas each headed by a Topic Editor-in-Chief, integrating all aspects of research in robotics under the journal''s domain.
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