Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review

In recent times, technological advancement boosts the desire of utilizing the autonomous Unmanned Aerial Vehicle (UAV) in both civil and military sectors. Among various UAVs, the ability of rotary wing UAVs (RUAVs) in vertical take-off and landing, to hover and perform quick maneuvering attract rese...

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Main Authors: Md Meftahul Ferdaus, Anavatti, Sreenatha G., Pratama, Mahardhika, Garratt, Matthew A.
Other Authors: School of Computer Science and Engineering
Format: Article
Language:English
Published: 2020
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Online Access:https://hdl.handle.net/10356/142506
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1425062020-06-23T03:48:42Z Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review Md Meftahul Ferdaus Anavatti, Sreenatha G. Pratama, Mahardhika Garratt, Matthew A. School of Computer Science and Engineering Engineering::Computer science and engineering Evolving Fuzzy Learning Machine In recent times, technological advancement boosts the desire of utilizing the autonomous Unmanned Aerial Vehicle (UAV) in both civil and military sectors. Among various UAVs, the ability of rotary wing UAVs (RUAVs) in vertical take-off and landing, to hover and perform quick maneuvering attract researchers to develop models fully autonomous control framework. The majority of first principle techniques in modeling and controlling RUAV face challenges in incorporating and handling various uncertainties. Recently various fuzzy and neuro-fuzzy based intelligent systems are utilized to enhance the RUAV’s modeling and control performance. However, the majority of these fuzzy systems are based on batch learning methods, have static structure, and cannot adapt to rapidly changing environments. The implication of Evolving Intelligent System based model-free data-driven techniques can be a smart option since they can adapt their structure and parameters to cope with sudden changes in the behavior of RUAVs real-time flight. They work in a single pass learning fashion which is suitable for online real-time deployment. In this paper, state of the art of various fuzzy systems from the basic fuzzy system to evolving fuzzy system, their application in a RUAV namely quadcopter with existing limitations, and possible opportunities are analyzed. Besides, a variety of first principle techniques to control the quadcopter, their impediments, and conceivable solution with recently employed evolving fuzzy controllers are reviewed. 2020-06-23T03:48:42Z 2020-06-23T03:48:42Z 2020 Journal Article Md Meftahul Ferdaus., Anavatti, S. G., Pratama, M., & Garratt, M. A. (2020). Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review. Artificial Intelligence Review, 53, 257–290. doi:10.1007/s10462-018-9653-z 0269-2821 https://hdl.handle.net/10356/142506 10.1007/s10462-018-9653-z 2-s2.0-85052106496 53 257 290 en Artificial Intelligence Review © 2018 Springer Nature B. V. All rights reserved.
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
topic Engineering::Computer science and engineering
Evolving Fuzzy
Learning Machine
spellingShingle Engineering::Computer science and engineering
Evolving Fuzzy
Learning Machine
Md Meftahul Ferdaus
Anavatti, Sreenatha G.
Pratama, Mahardhika
Garratt, Matthew A.
Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review
description In recent times, technological advancement boosts the desire of utilizing the autonomous Unmanned Aerial Vehicle (UAV) in both civil and military sectors. Among various UAVs, the ability of rotary wing UAVs (RUAVs) in vertical take-off and landing, to hover and perform quick maneuvering attract researchers to develop models fully autonomous control framework. The majority of first principle techniques in modeling and controlling RUAV face challenges in incorporating and handling various uncertainties. Recently various fuzzy and neuro-fuzzy based intelligent systems are utilized to enhance the RUAV’s modeling and control performance. However, the majority of these fuzzy systems are based on batch learning methods, have static structure, and cannot adapt to rapidly changing environments. The implication of Evolving Intelligent System based model-free data-driven techniques can be a smart option since they can adapt their structure and parameters to cope with sudden changes in the behavior of RUAVs real-time flight. They work in a single pass learning fashion which is suitable for online real-time deployment. In this paper, state of the art of various fuzzy systems from the basic fuzzy system to evolving fuzzy system, their application in a RUAV namely quadcopter with existing limitations, and possible opportunities are analyzed. Besides, a variety of first principle techniques to control the quadcopter, their impediments, and conceivable solution with recently employed evolving fuzzy controllers are reviewed.
author2 School of Computer Science and Engineering
author_facet School of Computer Science and Engineering
Md Meftahul Ferdaus
Anavatti, Sreenatha G.
Pratama, Mahardhika
Garratt, Matthew A.
format Article
author Md Meftahul Ferdaus
Anavatti, Sreenatha G.
Pratama, Mahardhika
Garratt, Matthew A.
author_sort Md Meftahul Ferdaus
title Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review
title_short Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review
title_full Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review
title_fullStr Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review
title_full_unstemmed Towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review
title_sort towards the use of fuzzy logic systems in rotary wing unmanned aerial vehicle : a review
publishDate 2020
url https://hdl.handle.net/10356/142506
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