A Weighted Fractional Order PID Controller for Nonlinear Systems with Variable Delay

Oscar Camacho; Ronny Chalco; Antonio Di Teodoro; Juan J. Gude; Renato Montaluisa; Carlos Vargas; Sebastian Vega

doi:10.1016/j.ifacol.2026.01.034

A Weighted Fractional Order PID Controller for Nonlinear Systems with Variable Delay

Oscar Camacho^*
, Ronny Chalco^*
, Antonio Di Teodoro^*
, Juan J. Gude
, Renato Montaluisa^*
, Carlos Vargas^*
, Sebastian Vega^*

^*Corresponding author for this work

Universidad San Francisco de Quito
Universidad de Deusto

Research output: Contribution to journal › Conference article › peer-review

Abstract

This paper presents a Weighted Fractional Order PID (WFO-PID) controller that enhances the conventional Fractional Order PID (FOPID) structure by introducing explicit weighting factors for the tuning terms. These weights, combined with fractional orders and gain parameters, provide greater flexibility in tuning, enabling for more precise control over system dynamics. The proposed controller is applied to a mixing tank process with variable time delay, a representative case of industrial processes with challenging dynamics. Its performance is benchmarked against both PID and FOPID controllers, demonstrating improved reference tracking and disturbance rejection, particularly under varying delay conditions and noise in the transmitter. The findings highlight the WFO-PID method's efficiency in managing intricate control situations.

Original language	English
Pages (from-to)	199-204
Number of pages	6
Journal	IFAC-PapersOnLine
Volume	59
Issue number	37
DOIs	https://doi.org/10.1016/j.ifacol.2026.01.034
State	Published - 1 Dec 2025
Event	13th IFAC Conference on Fractional Differentiation and its Applications, ICFDA 2025 - Algiers, Algeria Duration: 16 Dec 2025 → 18 Dec 2025

Keywords

Composition properties
Fractional PID control
Fractional systems
Industrial Process Control
Weighted Operators

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10.1016/j.ifacol.2026.01.034

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title = "A Weighted Fractional Order PID Controller for Nonlinear Systems with Variable Delay",

abstract = "This paper presents a Weighted Fractional Order PID (WFO-PID) controller that enhances the conventional Fractional Order PID (FOPID) structure by introducing explicit weighting factors for the tuning terms. These weights, combined with fractional orders and gain parameters, provide greater flexibility in tuning, enabling for more precise control over system dynamics. The proposed controller is applied to a mixing tank process with variable time delay, a representative case of industrial processes with challenging dynamics. Its performance is benchmarked against both PID and FOPID controllers, demonstrating improved reference tracking and disturbance rejection, particularly under varying delay conditions and noise in the transmitter. The findings highlight the WFO-PID method's efficiency in managing intricate control situations.",

keywords = "Composition properties, Fractional PID control, Fractional systems, Industrial Process Control, Weighted Operators",

author = "Oscar Camacho and Ronny Chalco and \{Di Teodoro\}, Antonio and Gude, \{Juan J.\} and Renato Montaluisa and Carlos Vargas and Sebastian Vega",

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T1 - A Weighted Fractional Order PID Controller for Nonlinear Systems with Variable Delay

AU - Camacho, Oscar

AU - Chalco, Ronny

AU - Di Teodoro, Antonio

AU - Gude, Juan J.

AU - Montaluisa, Renato

AU - Vargas, Carlos

AU - Vega, Sebastian

PY - 2025/12/1

Y1 - 2025/12/1

N2 - This paper presents a Weighted Fractional Order PID (WFO-PID) controller that enhances the conventional Fractional Order PID (FOPID) structure by introducing explicit weighting factors for the tuning terms. These weights, combined with fractional orders and gain parameters, provide greater flexibility in tuning, enabling for more precise control over system dynamics. The proposed controller is applied to a mixing tank process with variable time delay, a representative case of industrial processes with challenging dynamics. Its performance is benchmarked against both PID and FOPID controllers, demonstrating improved reference tracking and disturbance rejection, particularly under varying delay conditions and noise in the transmitter. The findings highlight the WFO-PID method's efficiency in managing intricate control situations.

AB - This paper presents a Weighted Fractional Order PID (WFO-PID) controller that enhances the conventional Fractional Order PID (FOPID) structure by introducing explicit weighting factors for the tuning terms. These weights, combined with fractional orders and gain parameters, provide greater flexibility in tuning, enabling for more precise control over system dynamics. The proposed controller is applied to a mixing tank process with variable time delay, a representative case of industrial processes with challenging dynamics. Its performance is benchmarked against both PID and FOPID controllers, demonstrating improved reference tracking and disturbance rejection, particularly under varying delay conditions and noise in the transmitter. The findings highlight the WFO-PID method's efficiency in managing intricate control situations.

KW - Composition properties

KW - Fractional PID control

KW - Fractional systems

KW - Industrial Process Control

KW - Weighted Operators

UR - https://www.scopus.com/pages/publications/105029899488

U2 - 10.1016/j.ifacol.2026.01.034

DO - 10.1016/j.ifacol.2026.01.034

M3 - Artículo de la conferencia

AN - SCOPUS:105029899488

SN - 2405-8971

VL - 59

SP - 199

EP - 204

JO - IFAC-PapersOnLine

JF - IFAC-PapersOnLine

IS - 37

T2 - 13th IFAC Conference on Fractional Differentiation and its Applications, ICFDA 2025

Y2 - 16 December 2025 through 18 December 2025

ER -

A Weighted Fractional Order PID Controller for Nonlinear Systems with Variable Delay

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Keywords

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