Information: Join today and make your research activities more affordable! Technical workshop participation fees and annual registration fees are available at member rates.
Notice: [Important] Announcement of Changes to Registration Fee Payment and Manuscript Upload Procedures for IEICE Technical Meetings
IEICE Technical Committee Submission System
Conference Paper's Information
Online Proceedings
[Sign in]
Tech. Rep. Archives
 Go Top Page Go Previous   [Japanese] / [English] 

Paper Abstract and Keywords
Presentation 2024-10-18 10:30
Investigation of Stability of Phase-Inversion Waves on an Equivalent System as an Infinity Ladder
Yuta Sugitani, Kyosuke Yasuda, Masayuki Yamauchi (HIT) CAS2024-48 NLP2024-78
Abstract (in Japanese) (See Japanese page) 
(in English) Many researches of synchronization phenomena are reported on many systems which oscillators are coupled by resistors, inductors, and so on. There is a phase-inversion wave of one of special synchronization phenomena. The phase-inversion waves continuously propagate in changing phase states between adjacent oscillators. We have been investigating and analyzing this phenomena. The phase-inversion waves can be observed on systems of a ladder shape, a ring shape, a two dimensional lattice, a torus shape, and so on. When the phase-inversion waves are observed on these systems, the phase-inversion waves do not depend on a number of the oscillators if the number of the oscillators is larger than a certain number. For examples, when the phase-inversion waves are propagating on a long ladder, even if the ladder is divided to two ladders, the phase-inversion waves continuously propagate on one of the two ladders, if the phase-inversion waves does not exist at the dividing point. Stability of phase-inversion waves, which have above characteristics, is hard to prove. When a phase-inversion wave is arriving at an oscillator, an amplitude of a voltage of the oscillator once become to large and become to small. Therefore, we can understand to arrive the phase-inversion wave, if a peak of an envelope of the voltage can be detected. In this study, we suggest a stability analyzing method of which variability of a peak values of all oscillators, which the phase-inversion waves propagate, are investigated on an equivalent system as an infinity ladder, and analyze the stability by using the method.
Keyword (in Japanese) (See Japanese page) 
(in English) coupled oscillators / synchronization phenomenon / phase-inversion waves / stability / equivalent system as infinity ladder circuit / / /  
Reference Info. IEICE Tech. Rep., vol. 124, no. 208, NLP2024-78, pp. 108-113, Oct. 2024.
Paper # NLP2024-78 
Date of Issue 2024-10-10 (CAS, NLP) 
ISSN Online edition: ISSN 2432-6380
Copyright
and
reproduction
All rights are reserved and no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notwithstanding, instructors are permitted to photocopy isolated articles for noncommercial classroom use without fee. (License No.: 10GA0019/12GB0052/13GB0056/17GB0034/18GB0034)
Download PDF CAS2024-48 NLP2024-78

Conference Information
Committee NLP CAS  
Conference Date 2024-10-17 - 2024-10-18 
Place (in Japanese) (See Japanese page) 
Place (in English) Information Center, Tottori University 
Topics (in Japanese) (See Japanese page) 
Topics (in English) Nonlinear Problems, Circuits and Systems, etc. 
Paper Information
Registration To NLP 
Conference Code 2024-10-NLP-CAS 
Language Japanese 
Title (in Japanese) (See Japanese page) 
Sub Title (in Japanese) (See Japanese page) 
Title (in English) Investigation of Stability of Phase-Inversion Waves on an Equivalent System as an Infinity Ladder 
Sub Title (in English)  
Keyword(1) coupled oscillators  
Keyword(2) synchronization phenomenon  
Keyword(3) phase-inversion waves  
Keyword(4) stability  
Keyword(5) equivalent system as infinity ladder circuit  
Keyword(6)  
Keyword(7)  
Keyword(8)  
1st Author's Name Yuta Sugitani  
1st Author's Affiliation Hiroshima Institute of Technology (HIT)
2nd Author's Name Kyosuke Yasuda  
2nd Author's Affiliation Hiroshima Institute of Technology (HIT)
3rd Author's Name Masayuki Yamauchi  
3rd Author's Affiliation Hiroshima Institute of Technology (HIT)
4th Author's Name  
4th Author's Affiliation ()
5th Author's Name  
5th Author's Affiliation ()
6th Author's Name  
6th Author's Affiliation ()
7th Author's Name  
7th Author's Affiliation ()
8th Author's Name  
8th Author's Affiliation ()
9th Author's Name  
9th Author's Affiliation ()
10th Author's Name  
10th Author's Affiliation ()
11th Author's Name  
11th Author's Affiliation ()
12th Author's Name  
12th Author's Affiliation ()
13th Author's Name  
13th Author's Affiliation ()
14th Author's Name  
14th Author's Affiliation ()
15th Author's Name  
15th Author's Affiliation ()
16th Author's Name  
16th Author's Affiliation ()
17th Author's Name  
17th Author's Affiliation ()
18th Author's Name  
18th Author's Affiliation ()
19th Author's Name  
19th Author's Affiliation ()
20th Author's Name  
20th Author's Affiliation ()
21st Author's Name  
21st Author's Affiliation ()
22nd Author's Name  
22nd Author's Affiliation ()
23rd Author's Name  
23rd Author's Affiliation ()
24th Author's Name  
24th Author's Affiliation ()
25th Author's Name  
25th Author's Affiliation ()
26th Author's Name / /
26th Author's Affiliation ()
()
27th Author's Name / /
27th Author's Affiliation ()
()
28th Author's Name / /
28th Author's Affiliation ()
()
29th Author's Name / /
29th Author's Affiliation ()
()
30th Author's Name / /
30th Author's Affiliation ()
()
31st Author's Name / /
31st Author's Affiliation ()
()
32nd Author's Name / /
32nd Author's Affiliation ()
()
33rd Author's Name / /
33rd Author's Affiliation ()
()
34th Author's Name / /
34th Author's Affiliation ()
()
35th Author's Name / /
35th Author's Affiliation ()
()
36th Author's Name / /
36th Author's Affiliation ()
()
Speaker Author-1 
Date Time 2024-10-18 10:30:00 
Presentation Time 20 minutes 
Registration for NLP 
Paper # CAS2024-48, NLP2024-78 
Volume (vol) vol.124 
Number (no) no.207(CAS), no.208(NLP) 
Page pp.108-113 
#Pages
Date of Issue 2024-10-10 (CAS, NLP) 


[Return to Top Page]

[Return to IEICE Web Page]


The Institute of Electronics, Information and Communication Engineers (IEICE), Japan