Modeling of Human Skin using Distributed Order Fractional Derivative Model-Frequency Domain
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2014
Poglavlje u monografiji (Objavljena verzija)
Metapodaci
Prikaz svih podataka o dokumentuApstrakt
Bioelectro-mechanical properties of the skin can be very valid data for analyzing fractal characteristics of skin structure. In this paper, bioelectrical impedance method and fractional calculus have been utilized for characterization of the human skin. Our fractional model presents the generalized continuous Cole
model which can predict structural – functional parameters as a lot of Cole complex relaxation times. It is
shown using the proposed model and experimental results that these parameters depend on the fractional
indexes as a degree of the fractional derivatives in the interval (0,1). These relaxation time constants correspond to structural – functional characteristics of the skin. The integral approximation of continuous fractional Cole model was done from ten points corresponding to orderly connected known reduced Cole elements. It was observed that five reduced Cole elements had significant values of corresponding relaxation times. Lastly, the advantages of the proposed m...odel are discussed.
Ključne reči:
skin layer / fractional calculus / frequency analysis / viscoelastic / electric impedanceIzvor:
Advanced Topics on Applications of Fractional Calculus on Control Problems, System Stability and Modeling, 2014, 94-105Izdavač:
- WSEAS Press
Finansiranje / projekti:
- Održivost i unapređenje mašinskih sistema u energetici i transportu primenom forenzičkog inženjerstva, eko i robust dizajna (RS-MESTD-Technological Development (TD or TR)-35006)
- Razvoj novih metoda i tehnika za ranu dijagnostiku kancera grlića materice, debelog creva, usne duplje i melanoma na bazi digitalne slike i ekscitaciono-emisionih spektara u vidljivom i infracrvenom domenu (RS-MESTD-Integrated and Interdisciplinary Research (IIR or III)-41006)
- Povećanje energetske efikasnosti HE i TE EPS-a razvojem tehnologije i uređaja energetske elektronike za regulaciju i automatizaciju (RS-MESTD-Technological Development (TD or TR)-33020)
- Dinamika hibridnih sistema složenih struktura. Mehanika materijala (RS-MESTD-Basic Research (BR or ON)-174001)
Kolekcije
Institucija/grupa
Mašinski fakultetTY - CHAP AU - Vosika, Zoran AU - Lazarević, Mihailo AU - Lazović, Goran AU - Simić-Krstić, Jovana AU - Koruga, Đuro PY - 2014 UR - https://machinery.mas.bg.ac.rs/handle/123456789/6686 AB - Bioelectro-mechanical properties of the skin can be very valid data for analyzing fractal characteristics of skin structure. In this paper, bioelectrical impedance method and fractional calculus have been utilized for characterization of the human skin. Our fractional model presents the generalized continuous Cole model which can predict structural – functional parameters as a lot of Cole complex relaxation times. It is shown using the proposed model and experimental results that these parameters depend on the fractional indexes as a degree of the fractional derivatives in the interval (0,1). These relaxation time constants correspond to structural – functional characteristics of the skin. The integral approximation of continuous fractional Cole model was done from ten points corresponding to orderly connected known reduced Cole elements. It was observed that five reduced Cole elements had significant values of corresponding relaxation times. Lastly, the advantages of the proposed model are discussed. PB - WSEAS Press T2 - Advanced Topics on Applications of Fractional Calculus on Control Problems, System Stability and Modeling T1 - Modeling of Human Skin using Distributed Order Fractional Derivative Model-Frequency Domain EP - 105 SP - 94 UR - https://hdl.handle.net/21.15107/rcub_machinery_6686 ER -
@inbook{ author = "Vosika, Zoran and Lazarević, Mihailo and Lazović, Goran and Simić-Krstić, Jovana and Koruga, Đuro", year = "2014", abstract = "Bioelectro-mechanical properties of the skin can be very valid data for analyzing fractal characteristics of skin structure. In this paper, bioelectrical impedance method and fractional calculus have been utilized for characterization of the human skin. Our fractional model presents the generalized continuous Cole model which can predict structural – functional parameters as a lot of Cole complex relaxation times. It is shown using the proposed model and experimental results that these parameters depend on the fractional indexes as a degree of the fractional derivatives in the interval (0,1). These relaxation time constants correspond to structural – functional characteristics of the skin. The integral approximation of continuous fractional Cole model was done from ten points corresponding to orderly connected known reduced Cole elements. It was observed that five reduced Cole elements had significant values of corresponding relaxation times. Lastly, the advantages of the proposed model are discussed.", publisher = "WSEAS Press", journal = "Advanced Topics on Applications of Fractional Calculus on Control Problems, System Stability and Modeling", booktitle = "Modeling of Human Skin using Distributed Order Fractional Derivative Model-Frequency Domain", pages = "105-94", url = "https://hdl.handle.net/21.15107/rcub_machinery_6686" }
Vosika, Z., Lazarević, M., Lazović, G., Simić-Krstić, J.,& Koruga, Đ.. (2014). Modeling of Human Skin using Distributed Order Fractional Derivative Model-Frequency Domain. in Advanced Topics on Applications of Fractional Calculus on Control Problems, System Stability and Modeling WSEAS Press., 94-105. https://hdl.handle.net/21.15107/rcub_machinery_6686
Vosika Z, Lazarević M, Lazović G, Simić-Krstić J, Koruga Đ. Modeling of Human Skin using Distributed Order Fractional Derivative Model-Frequency Domain. in Advanced Topics on Applications of Fractional Calculus on Control Problems, System Stability and Modeling. 2014;:94-105. https://hdl.handle.net/21.15107/rcub_machinery_6686 .
Vosika, Zoran, Lazarević, Mihailo, Lazović, Goran, Simić-Krstić, Jovana, Koruga, Đuro, "Modeling of Human Skin using Distributed Order Fractional Derivative Model-Frequency Domain" in Advanced Topics on Applications of Fractional Calculus on Control Problems, System Stability and Modeling (2014):94-105, https://hdl.handle.net/21.15107/rcub_machinery_6686 .