Conceptualization and Prototyping of Unmanned Amphibious Aerial Vehicle for Water Quality Assessment

S. Ganesan, B. Esakki, S. Mathiyazhagan, P. Vikram
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引用次数: 1

Abstract

Unmanned Amphibious Aerial Vehicles (UAAV) are gaining significant interest in accessing remote water bodies and an ideal tool for limnologist in water quality assessment. In this article, conceptualization of UAAV by inculcating the principle of hovercraft and multirotor system is carried out in a systematic approach. The unconventional configuration of UAAV makes the conceptual stage as a challenging task in the design process. In order to overcome the challenges and strapped configuration of vehicle design, the authors exploited the design process, Thirteen conceptual models are evolved and the best UAAV design model is selected based on stability, provision for accommodating payload, endurance, air cushioning effect for effective gliding along the water bodies, payload carrying capacity and modularity in construction. In addition, design of payload bay, selection of material, estimation of endurance and center of gravity calculations are carried out for those designs. The finalized conceptual models are constructed and performance of amphibious vehicles is investigated for varying the payload. The conglomerate designs of UAAV are evaluated for the design requirements and the computational fluid dynamic (CFD) analysis is performed to measure its performance characteristics. The experimental prototype of UAAV is custom built to demonstrate the competency of UAAV through flying in air and hovering in water. The test results suggested that, the developed UAAV has tremendous impact on minimizing the efforts of human being in inspecting remote water bodies in proficient way.
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用于水质评估的两栖无人机概念化和原型化
无人两栖飞行器(UAAV)对访问偏远水体越来越感兴趣,是湖泊学家进行水质评估的理想工具。在本文中,通过灌输气垫船和多旋翼系统的原理,以系统的方法对无人机进行了概念化。无人机的非常规配置使概念阶段成为设计过程中一项具有挑战性的任务。为了克服飞行器设计中的挑战和束缚配置,作者利用了设计过程,发展了13个概念模型,并根据稳定性、适应有效载荷的规定、耐久性、沿水体有效滑行的空气缓冲效果等因素选择了最佳无人机设计模型,有效载荷承载能力和结构模块化。此外,还对这些设计进行了有效载荷舱的设计、材料的选择、耐久性的估计和重心的计算。构建了最终确定的概念模型,并研究了两栖车辆在不同有效载荷下的性能。UAAV的砾岩设计根据设计要求进行了评估,并进行了计算流体动力学(CFD)分析以测量其性能特征。无人机的实验原型是定制的,以展示无人机在空中飞行和水中悬停的能力。测试结果表明,所开发的无人机对最大限度地减少人类对远程水体的熟练检测有着巨大的影响。
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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