| bibtype |
C -
Conference Paper (international conference)
|
| ARLID |
0543620 |
| utime |
20250123093536.5 |
| mtime |
20210702235959.9 |
| SCOPUS |
85113620622 |
| WOS |
000811823100162 |
| DOI |
10.1109/MED51440.2021.9480175 |
| title
(primary) (eng) |
Synchronization of a nonlinear multi-agent system with application to a network composed of Hindmarsh-Rose neurons |
| specification |
| page_count |
6 s. |
| media_type |
P |
|
| serial |
| ARLID |
cav_un_epca*0543619 |
| ISBN |
978-0-7381-1098-1 |
| title
|
Proceedings of the 29th Mediterranean Conference on Control and Automation (MED 2021) |
| page_num |
1086-1091 |
| publisher |
| place |
Piscataway |
| name |
IEEE |
| year |
2021 |
|
|
| keyword |
Neural networks |
| keyword |
Multi-agent systems |
| keyword |
Nonlinear systems |
| author
(primary) |
| ARLID |
cav_un_auth*0216347 |
| name1 |
Rehák |
| name2 |
Branislav |
| institution |
UTIA-B |
| full_dept (cz) |
Teorie řízení |
| full_dept (eng) |
Department of Control Theory |
| department (cz) |
TŘ |
| department (eng) |
TR |
| full_dept |
Department of Control Theory |
| fullinstit |
Ústav teorie informace a automatizace AV ČR, v. v. i. |
|
| author
|
| ARLID |
cav_un_auth*0215855 |
| name1 |
Lynnyk |
| name2 |
Volodymyr |
| institution |
UTIA-B |
| full_dept (cz) |
Teorie řízení |
| full_dept |
Department of Control Theory |
| department (cz) |
TŘ |
| department |
TR |
| full_dept |
Department of Control Theory |
| fullinstit |
Ústav teorie informace a automatizace AV ČR, v. v. i. |
|
| source |
|
| cas_special |
| project |
| project_id |
GA19-07635S |
| agency |
GA ČR |
| country |
CZ |
| ARLID |
cav_un_auth*0376351 |
|
| abstract
(eng) |
This paper discusses synchronization of a network composed of agents that are nonlinear and minimum phase. The main tool is feedback linearization. The results are applied to the problem of synchronization of a network composed of Hindmarsh-Rose neurons. Using the developed scheme, it is demonstrated that synchronization is achieved by considering the membrane potential only, the fact that the neuron is a minimum-phase nonlinear system implies that the other states are synchronized as well. The results are illustrated by simulations. |
| action |
| ARLID |
cav_un_auth*0411027 |
| name |
Mediterranean Conference on Control and Automation (MED 2021) /29./ |
| dates |
20210622 |
| mrcbC20-s |
20210625 |
| place |
Bari |
| country |
IT |
|
| RIV |
BC |
| FORD0 |
10000 |
| FORD1 |
10200 |
| FORD2 |
10201 |
| reportyear |
2022 |
| num_of_auth |
2 |
| mrcbC52 |
4 A sml 4as 20231122145816.7 |
| presentation_type |
PR |
| inst_support |
RVO:67985556 |
| permalink |
http://hdl.handle.net/11104/0320807 |
| confidential |
S |
| contract |
| name |
IEEE COPYRIGHT AND CONSENT FORM |
| date |
20210413 |
|
| arlyear |
2021 |
| mrcbTft |
\nSoubory v repozitáři: rehak-0543620-CopyrightReceipt189.pdf |
| mrcbU14 |
85113620622 SCOPUS |
| mrcbU24 |
PUBMED |
| mrcbU34 |
000811823100162 WOS |
| mrcbU56 |
konferenční příspěvek 253,89 KB |
| mrcbU63 |
cav_un_epca*0543619 Proceedings of the 29th Mediterranean Conference on Control and Automation (MED 2021) IEEE 2021 Piscataway 1086 1091 978-0-7381-1098-1 |
|