A self-adjusting multi-objective control approach for quadrotors

Sallam A. Kouritem; Mohannad Mahmoud; Nabil Nahas; Mohammed I. Abouheaf; Ahmed M. Saleh

doi:10.1016/j.aej.2023.06.050

A self-adjusting multi-objective control approach for quadrotors

Sallam A. Kouritem^*
, Mohannad Mahmoud
, Nabil Nahas
, Mohammed I. Abouheaf
, Ahmed M. Saleh

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

The quadrotor represents a class of highly nonlinear dynamic systems and its controllability features are challenging. Hence, it serves as an ideal unmanned aerial vehicle platform to validate many artificial intelligence-based research investigations. Nonetheless, most of the offline tuning approaches devote efforts to find near optimal control gains to regulate individually the decoupled motion directions. This work adopts a multi-objective self-adjusting search mechanism to actuate the motions of a quadrotor via deciding the control gains of the interacting loops simultaneously. This algorithm employs a first order low pass filter transfer function as an accepting approach for the tunning mechanism. The proposed approach is compared with a Genetic Algorithm and another nonlinear Proportional-Integral-Derivative approach to highlight the usefulness of the proposed mechanism. It was founded that quadrotor follows the desired trajectory with a small tracking error of less than 2% in the X-Y plane and less than 1 % error tracking error in the altitude Z. Also, it is recorded that MONLTA can overcome the simulated wind disturbances of 0.1 N.m as a disturbance torque.

Original language	English
Pages (from-to)	543-556
Number of pages	14
Journal	Alexandria Engineering Journal
Volume	76
DOIs	https://doi.org/10.1016/j.aej.2023.06.050
State	Published - 1 Aug 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 Faculty of Engineering, Alexandria University

Keywords

Metaheuristics
Multi-objective optimization
Nonlinear threshold accepting functions
PID control design
Unmanned aerial vehicles

ASJC Scopus subject areas

General Engineering

Access to Document

10.1016/j.aej.2023.06.050

Cite this

@article{1d21a7a07fd7467c9a6e8fdfac7b276e,

title = "A self-adjusting multi-objective control approach for quadrotors",

abstract = "The quadrotor represents a class of highly nonlinear dynamic systems and its controllability features are challenging. Hence, it serves as an ideal unmanned aerial vehicle platform to validate many artificial intelligence-based research investigations. Nonetheless, most of the offline tuning approaches devote efforts to find near optimal control gains to regulate individually the decoupled motion directions. This work adopts a multi-objective self-adjusting search mechanism to actuate the motions of a quadrotor via deciding the control gains of the interacting loops simultaneously. This algorithm employs a first order low pass filter transfer function as an accepting approach for the tunning mechanism. The proposed approach is compared with a Genetic Algorithm and another nonlinear Proportional-Integral-Derivative approach to highlight the usefulness of the proposed mechanism. It was founded that quadrotor follows the desired trajectory with a small tracking error of less than 2\% in the X-Y plane and less than 1 \% error tracking error in the altitude Z. Also, it is recorded that MONLTA can overcome the simulated wind disturbances of 0.1 N.m as a disturbance torque.",

keywords = "Metaheuristics, Multi-objective optimization, Nonlinear threshold accepting functions, PID control design, Unmanned aerial vehicles",

author = "Kouritem, \{Sallam A.\} and Mohannad Mahmoud and Nabil Nahas and Abouheaf, \{Mohammed I.\} and Saleh, \{Ahmed M.\}",

note = "Publisher Copyright: {\textcopyright} 2023 Faculty of Engineering, Alexandria University",

year = "2023",

month = aug,

day = "1",

doi = "10.1016/j.aej.2023.06.050",

language = "English",

volume = "76",

pages = "543--556",

journal = "Alexandria Engineering Journal",

issn = "1110-0168",

publisher = "Elsevier BV",

}

TY - JOUR

T1 - A self-adjusting multi-objective control approach for quadrotors

AU - Kouritem, Sallam A.

AU - Mahmoud, Mohannad

AU - Nahas, Nabil

AU - Abouheaf, Mohammed I.

AU - Saleh, Ahmed M.

PY - 2023/8/1

Y1 - 2023/8/1

N2 - The quadrotor represents a class of highly nonlinear dynamic systems and its controllability features are challenging. Hence, it serves as an ideal unmanned aerial vehicle platform to validate many artificial intelligence-based research investigations. Nonetheless, most of the offline tuning approaches devote efforts to find near optimal control gains to regulate individually the decoupled motion directions. This work adopts a multi-objective self-adjusting search mechanism to actuate the motions of a quadrotor via deciding the control gains of the interacting loops simultaneously. This algorithm employs a first order low pass filter transfer function as an accepting approach for the tunning mechanism. The proposed approach is compared with a Genetic Algorithm and another nonlinear Proportional-Integral-Derivative approach to highlight the usefulness of the proposed mechanism. It was founded that quadrotor follows the desired trajectory with a small tracking error of less than 2% in the X-Y plane and less than 1 % error tracking error in the altitude Z. Also, it is recorded that MONLTA can overcome the simulated wind disturbances of 0.1 N.m as a disturbance torque.

AB - The quadrotor represents a class of highly nonlinear dynamic systems and its controllability features are challenging. Hence, it serves as an ideal unmanned aerial vehicle platform to validate many artificial intelligence-based research investigations. Nonetheless, most of the offline tuning approaches devote efforts to find near optimal control gains to regulate individually the decoupled motion directions. This work adopts a multi-objective self-adjusting search mechanism to actuate the motions of a quadrotor via deciding the control gains of the interacting loops simultaneously. This algorithm employs a first order low pass filter transfer function as an accepting approach for the tunning mechanism. The proposed approach is compared with a Genetic Algorithm and another nonlinear Proportional-Integral-Derivative approach to highlight the usefulness of the proposed mechanism. It was founded that quadrotor follows the desired trajectory with a small tracking error of less than 2% in the X-Y plane and less than 1 % error tracking error in the altitude Z. Also, it is recorded that MONLTA can overcome the simulated wind disturbances of 0.1 N.m as a disturbance torque.

KW - Metaheuristics

KW - Multi-objective optimization

KW - Nonlinear threshold accepting functions

KW - PID control design

KW - Unmanned aerial vehicles

UR - https://www.scopus.com/pages/publications/85162953262

U2 - 10.1016/j.aej.2023.06.050

DO - 10.1016/j.aej.2023.06.050

M3 - Article

AN - SCOPUS:85162953262

SN - 1110-0168

VL - 76

SP - 543

EP - 556

JO - Alexandria Engineering Journal

JF - Alexandria Engineering Journal

ER -

A self-adjusting multi-objective control approach for quadrotors

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

Fingerprint

Cite this