Synchronization control for circadian rhythm of drosophila with flatness-based adaptive control

Tetsuya Kusumi; Hiromitsu Ohmori

doi:10.1109/SICE.2007.4421177

Synchronization control for circadian rhythm of drosophila with flatness-based adaptive control

Tetsuya Kusumi, Hiromitsu Ohmori

Department of System Design Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Recently, developing molecular biology and system biology, the mechanism of the circadian rhythm in which the inside of the body rhythm of the living thing is ruled is being clarified at the cell level. On the other hand, it is said that various sicknesses are related in the medicine and pharmacology to the disorder of the circadian rhythm. Therefore, it is thought that to restore an altered rhythm is a goal of these therapies. In this paper, we study the 10-states circadian model of Drosophila and propose a close-loop control based on flatness-based adaptive control to achieve circadian rhythm restoration.

Original language	English
Title of host publication	SICE Annual Conference, SICE 2007
Pages	1258-1262
Number of pages	5
DOIs	https://doi.org/10.1109/SICE.2007.4421177
Publication status	Published - 2007 Dec 1
Event	SICE(Society of Instrument and Control Engineers)Annual Conference, SICE 2007 - Takamatsu, Japan Duration: 2007 Sept 17 → 2007 Sept 20

Publication series

Name	Proceedings of the SICE Annual Conference

Other

Other	SICE(Society of Instrument and Control Engineers)Annual Conference, SICE 2007
Country/Territory	Japan
City	Takamatsu
Period	07/9/17 → 07/9/20

Keywords

Adaptive control
Circadian rhythm
Flatness-based control
Synchronization control
System biology

ASJC Scopus subject areas

Control and Systems Engineering
Computer Science Applications
Electrical and Electronic Engineering

Access to Document

10.1109/SICE.2007.4421177

Cite this

Kusumi, T & Ohmori, H 2007, Synchronization control for circadian rhythm of drosophila with flatness-based adaptive control. in SICE Annual Conference, SICE 2007., 4421177, Proceedings of the SICE Annual Conference, pp. 1258-1262, SICE(Society of Instrument and Control Engineers)Annual Conference, SICE 2007, Takamatsu, Japan, 07/9/17. https://doi.org/10.1109/SICE.2007.4421177

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abstract = "Recently, developing molecular biology and system biology, the mechanism of the circadian rhythm in which the inside of the body rhythm of the living thing is ruled is being clarified at the cell level. On the other hand, it is said that various sicknesses are related in the medicine and pharmacology to the disorder of the circadian rhythm. Therefore, it is thought that to restore an altered rhythm is a goal of these therapies. In this paper, we study the 10-states circadian model of Drosophila and propose a close-loop control based on flatness-based adaptive control to achieve circadian rhythm restoration.",

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N2 - Recently, developing molecular biology and system biology, the mechanism of the circadian rhythm in which the inside of the body rhythm of the living thing is ruled is being clarified at the cell level. On the other hand, it is said that various sicknesses are related in the medicine and pharmacology to the disorder of the circadian rhythm. Therefore, it is thought that to restore an altered rhythm is a goal of these therapies. In this paper, we study the 10-states circadian model of Drosophila and propose a close-loop control based on flatness-based adaptive control to achieve circadian rhythm restoration.

AB - Recently, developing molecular biology and system biology, the mechanism of the circadian rhythm in which the inside of the body rhythm of the living thing is ruled is being clarified at the cell level. On the other hand, it is said that various sicknesses are related in the medicine and pharmacology to the disorder of the circadian rhythm. Therefore, it is thought that to restore an altered rhythm is a goal of these therapies. In this paper, we study the 10-states circadian model of Drosophila and propose a close-loop control based on flatness-based adaptive control to achieve circadian rhythm restoration.

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KW - Flatness-based control

KW - Synchronization control

KW - System biology

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Synchronization control for circadian rhythm of drosophila with flatness-based adaptive control

Abstract

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Keywords

ASJC Scopus subject areas

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