A Spintronic Memristor Based PID Controller

Zhekang Dong; Shukai Duan; Xiaofang Hu; Lidan Wang; Fanyi Meng

A Spintronic Memristor Based PID Controller

Zhekang Dong^*, Shukai Duan, Xiaofang Hu, Lidan Wang, Fanyi Meng

^*Corresponding author for this work

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

The spintronic memristor was proposed based upon the magnetic theory shortly after the discovery of the Hewlett-Packard (HP) TiO2 memristor. Different from that of the TiO2 memristor, the resistance of a spintronic memristor not only depends on the historic profile of voltage and current through the device, but also is closely related to the current density. In this work, we review the mathematical model of the spintronic memristive device based on magnetic theory and analyze its memristive effects in detail. Then we provide a corresponding Simulink model. Furthermore, by incorporating the spintronic memristor into a conventional PID control circuit, the paper investigates an implementation approach for a novel compact memristive PID controller. The findings of the study may contribute to further development of the modern control technology, especially in hardware realization of micro-control system. Finally, reported simulations demonstrate the effectiveness of the proposed scheme.

Original language	English
Title of host publication	2015 AASRI International Conference on Industrial Electronics and Applications (IEA 2015)
Editors	Y Wu, W Deng
Publisher	Atlantis Press
Pages	280-283
Publication status	Published - Apr 2015
Event	AASRI International Conference on Industrial Electronics and Applications (IEA) - London Duration: 27 Jun 2015 → 28 Jun 2015

Publication series

Name	AER-Advances in Engineering Research
Publisher	ATLANTIS PRESS
Volume	2
ISSN (Print)	2352-5401

Conference

Conference	AASRI International Conference on Industrial Electronics and Applications (IEA)
City	London
Period	27/06/15 → 28/06/15

Research Keywords

spintronic memristor
PID control circuit
micro-control system

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@inproceedings{44824834fd024c159ac4e1b8b0646856,

title = "A Spintronic Memristor Based PID Controller",

abstract = "The spintronic memristor was proposed based upon the magnetic theory shortly after the discovery of the Hewlett-Packard (HP) TiO2 memristor. Different from that of the TiO2 memristor, the resistance of a spintronic memristor not only depends on the historic profile of voltage and current through the device, but also is closely related to the current density. In this work, we review the mathematical model of the spintronic memristive device based on magnetic theory and analyze its memristive effects in detail. Then we provide a corresponding Simulink model. Furthermore, by incorporating the spintronic memristor into a conventional PID control circuit, the paper investigates an implementation approach for a novel compact memristive PID controller. The findings of the study may contribute to further development of the modern control technology, especially in hardware realization of micro-control system. Finally, reported simulations demonstrate the effectiveness of the proposed scheme.",

keywords = "spintronic memristor, PID control circuit, micro-control system",

author = "Zhekang Dong and Shukai Duan and Xiaofang Hu and Lidan Wang and Fanyi Meng",

year = "2015",

month = apr,

language = "English",

series = "AER-Advances in Engineering Research",

publisher = "Atlantis Press",

pages = "280--283",

editor = "Y Wu and W Deng",

booktitle = "2015 AASRI International Conference on Industrial Electronics and Applications (IEA 2015)",

note = "AASRI International Conference on Industrial Electronics and Applications (IEA) ; Conference date: 27-06-2015 Through 28-06-2015",

}

Dong, Z, Duan, S, Hu, X, Wang, L & Meng, F 2015, A Spintronic Memristor Based PID Controller. in Y Wu & W Deng (eds), 2015 AASRI International Conference on Industrial Electronics and Applications (IEA 2015) . AER-Advances in Engineering Research, vol. 2, Atlantis Press, pp. 280-283, AASRI International Conference on Industrial Electronics and Applications (IEA), London, 27/06/15.

A Spintronic Memristor Based PID Controller. / Dong, Zhekang; Duan, Shukai; Hu, Xiaofang et al.
2015 AASRI International Conference on Industrial Electronics and Applications (IEA 2015) . ed. / Y Wu; W Deng. Atlantis Press, 2015. p. 280-283 (AER-Advances in Engineering Research; Vol. 2).

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

TY - GEN

T1 - A Spintronic Memristor Based PID Controller

AU - Dong, Zhekang

AU - Duan, Shukai

AU - Hu, Xiaofang

AU - Wang, Lidan

AU - Meng, Fanyi

PY - 2015/4

Y1 - 2015/4

N2 - The spintronic memristor was proposed based upon the magnetic theory shortly after the discovery of the Hewlett-Packard (HP) TiO2 memristor. Different from that of the TiO2 memristor, the resistance of a spintronic memristor not only depends on the historic profile of voltage and current through the device, but also is closely related to the current density. In this work, we review the mathematical model of the spintronic memristive device based on magnetic theory and analyze its memristive effects in detail. Then we provide a corresponding Simulink model. Furthermore, by incorporating the spintronic memristor into a conventional PID control circuit, the paper investigates an implementation approach for a novel compact memristive PID controller. The findings of the study may contribute to further development of the modern control technology, especially in hardware realization of micro-control system. Finally, reported simulations demonstrate the effectiveness of the proposed scheme.

AB - The spintronic memristor was proposed based upon the magnetic theory shortly after the discovery of the Hewlett-Packard (HP) TiO2 memristor. Different from that of the TiO2 memristor, the resistance of a spintronic memristor not only depends on the historic profile of voltage and current through the device, but also is closely related to the current density. In this work, we review the mathematical model of the spintronic memristive device based on magnetic theory and analyze its memristive effects in detail. Then we provide a corresponding Simulink model. Furthermore, by incorporating the spintronic memristor into a conventional PID control circuit, the paper investigates an implementation approach for a novel compact memristive PID controller. The findings of the study may contribute to further development of the modern control technology, especially in hardware realization of micro-control system. Finally, reported simulations demonstrate the effectiveness of the proposed scheme.

KW - spintronic memristor

KW - PID control circuit

KW - micro-control system

M3 - RGC 32 - Refereed conference paper (with host publication)

T3 - AER-Advances in Engineering Research

SP - 280

EP - 283

BT - 2015 AASRI International Conference on Industrial Electronics and Applications (IEA 2015)

A2 - Wu, Y

A2 - Deng, W

PB - Atlantis Press

T2 - AASRI International Conference on Industrial Electronics and Applications (IEA)

Y2 - 27 June 2015 through 28 June 2015

ER -

A Spintronic Memristor Based PID Controller

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