Improving the Reliability of the Control System of a Quadcopter

Larin, V. B.

doi:10.1007/s10778-018-0898-7

Cited by 12 publications

(11 citation statements)

References 7 publications

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“…2-It is a simulation method. In this method, the estimation of reliability indicators is based on the simulation of real processes and the study of variable behavior and events that occur in a system and therefore includes a series of real tests [4,5].…”

Section: Through Information While Exploitingmentioning

confidence: 99%

“…Eventually, working conditions may be completely monotonous or drastically changed. Thus, probability theory is only a means by which the information of a system is transformed into a possible performance prediction [1,4].…”

Section: Introductionmentioning

confidence: 99%

“…In the absence of a complete understanding of these concepts and criteria, an analysis of this kind would become nothing more than a series of mathematical exercises, and the results may be inaccurate and misleading. Therefore, engineering is the reliability of a measurement and a system for engineering [1,4].…”

Section: Introductionmentioning

confidence: 99%

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Reliability calculation with error tree analysis and breakdown effect analysis for a Quadcopter power distribution system

Imani¹,

Gholami

Dehaghi

2022

Preprint

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Today, quadcopters play an important role in a variety of industries due to their many advantages over other aircraft. In addition to their high level of technology, quadcopters are susceptible to damage, and their repair can be costly. On the other hand, today, reliability is recognized as a critical design feature in most industries. A device's reliability is one of the most important issues in the field of engineering since it provides engineers with an insight into how a device performs. The reliability of a system is one of the most important and complex issues. Since reliability is a key factor in all industries and can have significant effects on increasing the life and quality of products, we tried to use reliability using statistical relationships and mathematical models as well as past experiences. Due to their reliability, cost-effectiveness, and multifunctionality, they are frequently used in a variety of locations Then, by examining the failures modes and their results on the system, the effects of the quadcopter failures are analyzed using the FMEA method, in order to determine the modes and causes of failure. Finally, to determine the causes of failure, we have checked the quadcopter by FTA method to minimize the possibility of failure. The purpose of this article is to first discuss definitions and concepts in the field of reliability and then to analyze the quadcopter and its components.

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Section: Through Information While Exploitingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Reliability calculation with error tree analysis and breakdown effect analysis for a Quadcopter power distribution system

Imani¹,

Gholami

Dehaghi

2022

Preprint

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show abstract

“…Among this new equipment, we can mention quadcopters, which due to their special characteristics, such as high stability, controllability, small dimensions, etc. have caused it to play many roles in various industries [3]. Quadcopters, due to their high functionality, the presence of numerous high-tech components, as well as special flight standards have created a situation in which even the smallest fault can be costly [3][4][5].…”

Section: Introductionmentioning

confidence: 99%

“…have caused it to play many roles in various industries [3]. Quadcopters, due to their high functionality, the presence of numerous high-tech components, as well as special flight standards have created a situation in which even the smallest fault can be costly [3][4][5].…”

Section: Introductionmentioning

confidence: 99%

Reliability calculation with error tree analysis and breakdown effect analysis for a quadcopter power distribution system

Imani¹,

Gholami²,

Dehaghi³

2022

Maint. reliab, cond. monit.

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Quadcopters are playing an increasingly important role in a variety of industries due to their numerous advantages over other types of aircraft. Additionally, quadcopters are susceptible to damage, and their repair can be costly. On the other hand, today, reliability is recognized as a critical design feature in most industries. A device's reliability is one of the most important and complex issues in the field of engineering since it provides engineers with an insight into how a device performs. Due to the fact that reliability is a major factor in all industries and can significantly affect the quality and life of products, we analyzed the reliability of a quadcopter using statistical relationships, mathematical models, and previous experiences. After examining the failure modes and their effects on the system, the effects of the quadcopter failures are analyzed using the FMEA method, in order to determine the cause and mode of the failure. Finally, to determine the causes of failure, we have checked the quadcopter by the FTA method to minimize the possibility of failure. The purpose of this article is to discuss definitions and concepts in the field of reliability, followed by an analysis of the quadcopter and its components.

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Method of Optimizing Maneuvers of an Orbital Transfer Vehicle in a Strong Central Field of Gravity

Tkachenko

2019

Int Appl Mech

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Improving the Reliability of the Control System of a Quadcopter

Cited by 12 publications

References 7 publications

Reliability calculation with error tree analysis and breakdown effect analysis for a Quadcopter power distribution system

Reliability calculation with error tree analysis and breakdown effect analysis for a Quadcopter power distribution system

Reliability calculation with error tree analysis and breakdown effect analysis for a quadcopter power distribution system

Method of Optimizing Maneuvers of an Orbital Transfer Vehicle in a Strong Central Field of Gravity

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