METHODOLOGICAL APPROACH TO THE ASSESSMENT OF SPATIAL AND TEMPORAL PARAMETERS OF AN UNMANNED AERIAL VEHICLE DURING FLIGHT TESTS

Science-based technologies Pub Date : 2023-01-31 DOI:10.18372/2310-5461.56.17126

A. Zirka, M. Zirka, Natalia Kadet

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Abstract

During flight tests of unmanned aerial vehicles (UAVs), the assessment of individual parameters, such as: range and flight duration (spatial and temporal parameters) is associated with the involvement of a significant resource (time, space, material and technical, etc.), which often raises problematic questions regarding their implementation. At the same time, in most cases, the customer usually puts forward fundamental and clear requirements to ensure the required range and duration of the flight. These indicators generally characterize the capabilities of complexes to perform tasks as intended. However, during the conducted tests, for a number of complexes, they were not fully evaluated (confirmed), including due to unfavorable conditions for conducting tests, as well as the presence of space and time limitations, first of all, the imperfection of the existing testing facilities. Given the above, the article substantiates, builds and analyzes the practical implementation, based on the results of a flight experiment, of a methodological approach to the operational assessment of certain flight characteristics, primarily the range and duration of flight during UAV flight tests. At the same time, an increase in the reliability of the data obtained is achieved through the use of the proposed complex indicator and savings in material and time resources due to the optimization of the program of the relevant test flights. The previously proposed complex indicator - the coefficient of technical perfection of the UAV, which simultaneously takes into account the perfection of the design, aerodynamic layout and efficiency of the power plant, allows to verify the reliability of the values of the parameters of the maximum range and duration of the UAV flight obtained during flight tests The theoretical and practical calculation (during a flight experiment) of the coefficient of technical perfection of a UAV with an electric propulsion system based on the experimentally obtained characteristics of the maximum range and duration of flight is presented and compared.

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无人机飞行试验期间空间和时间参数评估的方法学方法

在无人驾驶飞行器(uav)的飞行试验期间，个别参数的评估，例如:航程和飞行持续时间(空间和时间参数)与大量资源(时间、空间、材料和技术等)的参与有关，这往往会对其实施产生问题。同时，在大多数情况下，客户通常会提出基本和明确的要求，以确保所需的飞行距离和持续时间。这些指标一般描述了综合体按预期执行任务的能力。然而，在对一些综合设施进行试验期间，由于进行试验的不利条件以及存在空间和时间限制，首先是现有试验设施不完善，这些试验没有得到充分评价(证实)。鉴于上述情况，本文在飞行实验结果的基础上，对无人机飞行试验中某些飞行特性(主要是飞行距离和飞行持续时间)的作战评估方法的实际实施进行了充实、构建和分析。同时，通过使用所提出的复杂指标，提高了所获得数据的可靠性，并由于相关试飞方案的优化，节省了材料和时间资源。之前提出的复杂指标——无人机的技术完善系数，它同时考虑了动力装置的设计、气动布局和效率的完善。根据实验得到的无人机最大航程和飞行时长的特性，给出了电推进系统无人机技术完善系数的理论计算和实际计算(在飞行实验中)，并进行了比较。

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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Science-based technologies

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