Search CORE

6 research outputs found

Algorithms and Results of Eye Tissues Differentiation Based on RF Ultrasound

Author: Daukantas S.
Janušauskas A.
Jegelevičius D.
Jurkonis R.
Lukoševičius A.
Marozas V.
Patašius M.
Paunksnis A.
Publication venue: The Scientific World Journal
Publication date: 01/01/2012
Field of study

Algorithms and software were developed for analysis of B-scan ultrasonic signals acquired from commercial diagnostic ultrasound system. The algorithms process raw ultrasonic signals in backscattered spectrum domain, which is obtained using two time-frequency methods: short-time Fourier and Hilbert-Huang transformations. The signals from selected regions of eye tissues are characterized by parameters: B-scan envelope amplitude, approximated spectral slope, approximated spectral intercept, mean instantaneous frequency, mean instantaneous bandwidth, and parameters of Nakagami distribution characterizing Hilbert-Huang transformation output. The backscattered ultrasound signal parameters characterizing intraocular and orbit tissues were processed by decision tree data mining algorithm. The pilot trial proved that applied methods are able to correctly classify signals from corpus vitreum blood, extraocular muscle, and orbit tissues. In 26 cases of ocular tissues classification, one error occurred, when tissues were classified into classes of corpus vitreum blood, extraocular muscle, and orbit tissue. In this pilot classification parameters of spectral intercept and Nakagami parameter for instantaneous frequencies distribution of the 1st intrinsic mode function were found specific for corpus vitreum blood, orbit and extraocular muscle tissues. We conclude that ultrasound data should be further collected in clinical database to establish background for decision support system for ocular tissue noninvasive differentiation

Crossref

Directory of Open Access Journals

PubMed Central

The cientificWorldJOURNAL Research Article Algorithms and Results of Eye Tissues Differentiation Based on RF Ultrasound

Author: A Janušauskas
A Lukoševičius
A Paunksnis
D Jegelevičius
M Patašius
R Jurkonis
S Daukantas
V Marozas
Publication venue
Publication date: 05/03/2020
Field of study

Algorithms and software were developed for analysis of B-scan ultrasonic signals acquired from commercial diagnostic ultrasound system. The algorithms process raw ultrasonic signals in backscattered spectrum domain, which is obtained using two timefrequency methods: short-time Fourier and Hilbert-Huang transformations. The signals from selected regions of eye tissues are characterized by parameters: B-scan envelope amplitude, approximated spectral slope, approximated spectral intercept, mean instantaneous frequency, mean instantaneous bandwidth, and parameters of Nakagami distribution characterizing Hilbert-Huang transformation output. The backscattered ultrasound signal parameters characterizing intraocular and orbit tissues were processed by decision tree data mining algorithm. The pilot trial proved that applied methods are able to correctly classify signals from corpus vitreum blood, extraocular muscle, and orbit tissues. In 26 cases of ocular tissues classification, one error occurred, when tissues were classified into classes of corpus vitreum blood, extraocular muscle, and orbit tissue. In this pilot classification parameters of spectral intercept and Nakagami parameter for instantaneous frequencies distribution of the 1st intrinsic mode function were found specific for corpus vitreum blood, orbit and extraocular muscle tissues. We conclude that ultrasound data should be further collected in clinical database to establish background for decision support system for ocular tissue noninvasive differentiation

CiteSeerX

Abstract Bulletin of Foreign Patents and Index Preparation: A Combined Procedure

Author: Bibliographye
Document Reproduction F.I.D.
F. K. Broome
M. Daukantas
R. J. Drozda
S. J. Weinstein
Storing Improvements
Taube M.
Publication venue: 'American Chemical Society (ACS)'
Publication date
Field of study

Crossref

Outage analysis of MIMO NLOS‐UV communication systems over atmospheric turbulence channels

Author: Arya S.
Bahattin Karakaya
Chen G.
Daukantas P.
Gong C.
Han D.
Hutt D.L.
Leon‐Garcia A.
Li F.
Luettgen M.R.
Niyazi Odabasioglu
Proakis J.G.
Qin H.
Sayed Hasan Hariq
Wang G.
Wang L.
Xu Z.
Zhang H.
Publication venue: 'Institution of Engineering and Technology (IET)'
Publication date
Field of study

Crossref

Performance analysis of an optical network employing waveband and traffic grooming

Author: A. Bahri
A. Jaekel
Amilcar C. Cesar
C.-F. Hsu
Eduardo J. Aloia
Eduardo M. G. de Queiroz
Helvecio M. Almeida
I. Cerutti
J. Ahmed
J.-M. Hyppolite
K. Mosharaf
K. Zhu
M.A.C. Lima
Murilo A. Romero
P. Daukantas
P. Iyer
R. Dutta
R. Parthiban
S. Thiagarajan
X. Cao
X. Cao
X. Cao
Y. Cao
Y. Ye
Y. Zhang
Publication venue: 'Springer Science and Business Media LLC'
Publication date
Field of study

Crossref