Standard
Sea state characterization using experimental one-dimensional Radar signatures at x-band and fractal techniques. / Соловьев, Игорь Павлович; Ампилова, Наталья Борисовна; Frangos, Panayiotis; Pouraimis, G.; Kotopoulis, A.; Lymperopoulos, Th. ; Kallitsis, E.
PROCEEDINGS OF 13 TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS (CEMA’18). ред. / Dimiter Dimitrov. Том 2018-October Bulgaria, Sofia : TECHNICAL UNIVERSITY OF SOFIA, 2018. стр. 1-5 1 (Communication, Electromagnetics and Medical Application).
Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференций › статья в сборнике материалов конференции › научная › Рецензирование
Harvard
Соловьев, ИП, Ампилова, НБ, Frangos, P, Pouraimis, G, Kotopoulis, A, Lymperopoulos, T & Kallitsis, E 2018,
Sea state characterization using experimental one-dimensional Radar signatures at x-band and fractal techniques. в D Dimitrov (ред.),
PROCEEDINGS OF 13 TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS (CEMA’18). Том. 2018-October, 1, Communication, Electromagnetics and Medical Application, TECHNICAL UNIVERSITY OF SOFIA, Bulgaria, Sofia, стр. 1-5, 13 INTERNATIONAL CONFERENCE ON
COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL
APPLICATIONS (CEMA’18), София, Болгария,
18/10/18.
APA
Соловьев, И. П., Ампилова, Н. Б., Frangos, P., Pouraimis, G., Kotopoulis, A., Lymperopoulos, T., & Kallitsis, E. (2018).
Sea state characterization using experimental one-dimensional Radar signatures at x-band and fractal techniques. в D. Dimitrov (Ред.),
PROCEEDINGS OF 13 TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS (CEMA’18) (Том 2018-October, стр. 1-5). [1] (Communication, Electromagnetics and Medical Application). TECHNICAL UNIVERSITY OF SOFIA.
Vancouver
Соловьев ИП, Ампилова НБ, Frangos P, Pouraimis G, Kotopoulis A, Lymperopoulos T и пр.
Sea state characterization using experimental one-dimensional Radar signatures at x-band and fractal techniques. в Dimitrov D, Редактор, PROCEEDINGS OF 13 TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS (CEMA’18). Том 2018-October. Bulgaria, Sofia: TECHNICAL UNIVERSITY OF SOFIA. 2018. стр. 1-5. 1. (Communication, Electromagnetics and Medical Application).
Author
Соловьев, Игорь Павлович ; Ампилова, Наталья Борисовна ; Frangos, Panayiotis ; Pouraimis, G. ; Kotopoulis, A. ; Lymperopoulos, Th. ; Kallitsis, E. /
Sea state characterization using experimental one-dimensional Radar signatures at x-band and fractal techniques. PROCEEDINGS OF 13 TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS (CEMA’18). Редактор / Dimiter Dimitrov. Том 2018-October Bulgaria, Sofia : TECHNICAL UNIVERSITY OF SOFIA, 2018. стр. 1-5 (Communication, Electromagnetics and Medical Application).
BibTeX
@inproceedings{5f564a8f5e8642c188ee614efaa89c45,
title = "Sea state characterization using experimental one-dimensional Radar signatures at x-band and fractal techniques",
abstract = "This paper presents a novel method of sea state characterization using the 'Mean Fractal Length (MFL)' criterion which is applied to experimental Synthetic Aperture Radar (SAR) one - dimensional signatures (range profiles), provided to our research group by SET 215 Working Group on 'SAR radar techniques'. The MFL criterion uses the 'blanket' technique to provide sea state characterization from SAR radar range profiles. It is based on the calculation of the area of a 'blanket', corresponding to the range profile under examination, and then on the calculation of the corresponding 'Fractal Length' of the range profile. The main idea concerning this proposed technique is the fact that SAR radar range profiles corresponding to different sea states yield different values of 'Fractal Length, FL', namely 'turbulent sea' yields range profiles with larger FL, because of the more 'anomalous behavior' of the range profiles in that case. As a result, a sea state characterization technique for two different sea states (turbulent and calm sea) is presented in this paper.",
author = "Соловьев, {Игорь Павлович} and Ампилова, {Наталья Борисовна} and Panayiotis Frangos and G. Pouraimis and A. Kotopoulis and Th. Lymperopoulos and E. Kallitsis",
note = "Publisher Copyright: {\textcopyright} 2018 KING 2001, Sofia. All rights reserved. Copyright: Copyright 2018 Elsevier B.V., All rights reserved.; null ; Conference date: 18-10-2018 Through 20-10-2018",
year = "2018",
month = oct,
day = "18",
language = "English",
volume = "2018-October",
series = "Communication, Electromagnetics and Medical Application",
publisher = " TECHNICAL UNIVERSITY OF SOFIA",
pages = "1--5",
editor = "Dimiter Dimitrov",
booktitle = "PROCEEDINGS OF 13 TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS (CEMA{\textquoteright}18)",
address = "Bulgaria",
url = "http://rcvt.tu-sofia.bg/CEMA/",
}
RIS
TY - GEN
T1 - Sea state characterization using experimental one-dimensional Radar signatures at x-band and fractal techniques
AU - Соловьев, Игорь Павлович
AU - Ампилова, Наталья Борисовна
AU - Frangos, Panayiotis
AU - Pouraimis, G.
AU - Kotopoulis, A.
AU - Lymperopoulos, Th.
AU - Kallitsis, E.
N1 - Conference code: 13
PY - 2018/10/18
Y1 - 2018/10/18
N2 - This paper presents a novel method of sea state characterization using the 'Mean Fractal Length (MFL)' criterion which is applied to experimental Synthetic Aperture Radar (SAR) one - dimensional signatures (range profiles), provided to our research group by SET 215 Working Group on 'SAR radar techniques'. The MFL criterion uses the 'blanket' technique to provide sea state characterization from SAR radar range profiles. It is based on the calculation of the area of a 'blanket', corresponding to the range profile under examination, and then on the calculation of the corresponding 'Fractal Length' of the range profile. The main idea concerning this proposed technique is the fact that SAR radar range profiles corresponding to different sea states yield different values of 'Fractal Length, FL', namely 'turbulent sea' yields range profiles with larger FL, because of the more 'anomalous behavior' of the range profiles in that case. As a result, a sea state characterization technique for two different sea states (turbulent and calm sea) is presented in this paper.
AB - This paper presents a novel method of sea state characterization using the 'Mean Fractal Length (MFL)' criterion which is applied to experimental Synthetic Aperture Radar (SAR) one - dimensional signatures (range profiles), provided to our research group by SET 215 Working Group on 'SAR radar techniques'. The MFL criterion uses the 'blanket' technique to provide sea state characterization from SAR radar range profiles. It is based on the calculation of the area of a 'blanket', corresponding to the range profile under examination, and then on the calculation of the corresponding 'Fractal Length' of the range profile. The main idea concerning this proposed technique is the fact that SAR radar range profiles corresponding to different sea states yield different values of 'Fractal Length, FL', namely 'turbulent sea' yields range profiles with larger FL, because of the more 'anomalous behavior' of the range profiles in that case. As a result, a sea state characterization technique for two different sea states (turbulent and calm sea) is presented in this paper.
UR - http://www.scopus.com/inward/record.url?scp=85056259806&partnerID=8YFLogxK
M3 - Conference contribution
VL - 2018-October
T3 - Communication, Electromagnetics and Medical Application
SP - 1
EP - 5
BT - PROCEEDINGS OF 13 TH INTERNATIONAL CONFERENCE ON COMMUNICATIONS, ELECTROMAGNETICS AND MEDICAL APPLICATIONS (CEMA’18)
A2 - Dimitrov, Dimiter
PB - TECHNICAL UNIVERSITY OF SOFIA
CY - Bulgaria, Sofia
Y2 - 18 October 2018 through 20 October 2018
ER -
