Autonomous Navigation, Guidance and Control of Small Electric Helicopter

Autonomous Navigation, Guidance and Control of Small Electric Helicopter

In this study, we design an autonomous navigation, guidance and control system for a small electric helicopter. Only small, light-weight, and inaccurate sensors can be used for the control of small helicopters because of the payload limitation. To overcome the problem of inaccurate sensors, a compos...

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Main Authors: Satoshi Suzuki, Takahiro Ishii, Nobuya Okada, Kojiro Iizuka, Takashi Kawamura
Format: Article
Language:English
Published: SAGE Publishing 2013-01-01
Series:International Journal of Advanced Robotic Systems
Online Access:https://doi.org/10.5772/54713
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spelling doaj-5a1ffbb6631742f19770e12f59d5166f2020-11-25T03:40:53ZengSAGE PublishingInternational Journal of Advanced Robotic Systems1729-88142013-01-011010.5772/5471310.5772_54713Autonomous Navigation, Guidance and Control of Small Electric HelicopterSatoshi Suzuki0Takahiro Ishii1Nobuya Okada2Kojiro Iizuka3Takashi Kawamura4 International Young Researchers Empowerment Center, Shinshu University, Japan Graduate School of Science and Technology, Shinshu University, Japan Graduate School of Science and Technology, Shinshu University, Japan International Young Researchers Empowerment Center, Shinshu University, Japan Faculty of Textile and Technology, Shinshu University, JapanIn this study, we design an autonomous navigation, guidance and control system for a small electric helicopter. Only small, light-weight, and inaccurate sensors can be used for the control of small helicopters because of the payload limitation. To overcome the problem of inaccurate sensors, a composite navigation system is designed. The designed navigation system enables us to precisely obtain the position and velocity of the helicopter. A guidance and control system is designed for stabilizing the helicopter at an arbitrary point in three-dimensional space. In particular, a novel and simple guidance system is designed using the combination of optimal control theory and quaternion kinematics. The designs of the study are validated experimentally, and the experimental results verify the efficiency of our navigation, guidance and control system for a small electric helicopter.https://doi.org/10.5772/54713
collection DOAJ
language English
format Article
sources DOAJ
author Satoshi Suzuki
Takahiro Ishii
Nobuya Okada
Kojiro Iizuka
Takashi Kawamura
spellingShingle Satoshi Suzuki
Takahiro Ishii
Nobuya Okada
Kojiro Iizuka
Takashi Kawamura
Autonomous Navigation, Guidance and Control of Small Electric Helicopter
International Journal of Advanced Robotic Systems
author_facet Satoshi Suzuki
Takahiro Ishii
Nobuya Okada
Kojiro Iizuka
Takashi Kawamura
author_sort Satoshi Suzuki
title Autonomous Navigation, Guidance and Control of Small Electric Helicopter
title_short Autonomous Navigation, Guidance and Control of Small Electric Helicopter
title_full Autonomous Navigation, Guidance and Control of Small Electric Helicopter
title_fullStr Autonomous Navigation, Guidance and Control of Small Electric Helicopter
title_full_unstemmed Autonomous Navigation, Guidance and Control of Small Electric Helicopter
title_sort autonomous navigation, guidance and control of small electric helicopter
publisher SAGE Publishing
series International Journal of Advanced Robotic Systems
issn 1729-8814
publishDate 2013-01-01
description In this study, we design an autonomous navigation, guidance and control system for a small electric helicopter. Only small, light-weight, and inaccurate sensors can be used for the control of small helicopters because of the payload limitation. To overcome the problem of inaccurate sensors, a composite navigation system is designed. The designed navigation system enables us to precisely obtain the position and velocity of the helicopter. A guidance and control system is designed for stabilizing the helicopter at an arbitrary point in three-dimensional space. In particular, a novel and simple guidance system is designed using the combination of optimal control theory and quaternion kinematics. The designs of the study are validated experimentally, and the experimental results verify the efficiency of our navigation, guidance and control system for a small electric helicopter.
url https://doi.org/10.5772/54713
work_keys_str_mv AT satoshisuzuki autonomousnavigationguidanceandcontrolofsmallelectrichelicopter
AT takahiroishii autonomousnavigationguidanceandcontrolofsmallelectrichelicopter
AT nobuyaokada autonomousnavigationguidanceandcontrolofsmallelectrichelicopter
AT kojiroiizuka autonomousnavigationguidanceandcontrolofsmallelectrichelicopter
AT takashikawamura autonomousnavigationguidanceandcontrolofsmallelectrichelicopter
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