|
|
Methods of constructing algorithms for comparative test statistical verification of mathematical models of bioobject responses to low-intensity stimuli
Назва | Methods of constructing algorithms for comparative test statistical verification of mathematical models of bioobject responses to low-intensity stimuli |
Назва англійською | Methods of constructing algorithms for comparative test statistical verification of mathematical models of bioobject responses to low-intensity stimuli |
Автори | Bohdan Yavorskyy, Evhenia Yavorska, Halyna Tsupryk, Roman Kinash |
Принадлежність | Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine |
Бібліографічний опис | Methods of constructing algorithms for comparative test statistical verification of mathematical models of bioobject responses to low-intensity stimuli / Bohdan Yavorskyy, Evhenia Yavorska, Halyna Tsupryk, Roman Kinash // Scientific Journal of TNTU. — Tern.: TNTU, 2023. — Vol 112. — No 4. — P. 82–90. |
Bibliographic description: | Yavorskyy B., Yavorska E., Tsupryk H., Kinash R. (2023). Methods of constructing algorithms for comparative test statistical verification of mathematical models of bioobject responses to low-intensity stimuli. Scientific Journal of TNTU (Tern.), vol 112, no 4, pp. 82–90. |
DOI: | https://doi.org/10.33108/visnyk_tntu2023.04.082 |
УДК |
004.942:53.05-617.735 |
Ключові слова |
biological object, low intensity excitation, mathematical model, estimation, statistical test. |
|
The paper presents the results of the construction of algorithms for comparative test statistical testing of mathematical models of responses of a bioobject to low-intensity stimuli, which is an oscillating function with relaxation. In addition, due to the hierarchically primary role of the mathematical model among the used means of this test, the possibility of determining the quality of the response evaluation method is substantiated. |
ISSN: | 2522-4433 |
Перелік літератури |
1. Tkachuk R. A., Tsupryk H. B., i Yavorsʹkyy B. I., “Pidvyshchennya informatyvnosti ta shvydkosti biotekhnichnykh system”. Opt-el. inf-enerh. tekhn. Vyp. 24. Vyp. 2. P. 81–85. Zhov 2013. [In Ukrainian].
2. Yavorska E. B. Matematychni modeli ta metody opratsyuvannya rytmokardiosyhnaliv dlya vyznachennya kharakterystyk sertsevoyi rytmiky z prohnozovanoyu virohidnistyu. Ternopil. TNTU. 2009. [In Ukrainian]
3. Dragan Yа. P., Yavorskyy B. I., Yavorska Ye. B. Kontseptsiyi i pryntsypy pobudovy modeley dlya vyznachennya metrolohichnykh kharakterystyk rytmiky kardiosyhnaliv. Visnyk Natsionalʹnoho universytetu “Lʹvivsʹka politekhnika”. Lʹviv: Vydavnytstvo Natsionalʹnoho universytetu “Lʹvivsʹka politekhnika”, 2002. № 443. Radioelektronika ta telekomunikatsiyi. P. 200–205. [In Ukrainian].
4. Tsupryk H. B. Using Hilbert Transform for biosignal samples ansamble statistical estimation. Visnyk NTUU “KPI” seriia-Radiotekhnika radioaparatobuduvannia. 2015. 62: P. 94–99.
5. Yavorskyy B. Numerical simulation of the quantum states of squeezed light. Optyko-elektronni informatsiino-enerhetychni tekhnolohii. 2009. No. 2. P. 138–144.
6. Tsupryk H. B. Veryfikatsiya metodu otsinyuvannya rezulʹtatu aktyvnoho informatsiynoho doslidzhennya bioobʺyektu. Materialy XVIII naukovoyi konferentsiyi TNTU im. I. Pulyuya. 2014. P. 107–108. [In Ukrainian].
7. Tsupryk H. Providing the coherence of biosignal system in information analytical biomedical. Bulletin of TNTU. Ternopil. 2015. Volume 77. No. 1. P. 275–282. [In Ukrainian].
8. Dragan Ya. P., Sikora L. S., Yavorskyi B. I.. Drahan YA., Sikora L., Yavorsʹkyy B. Systemnyy analiz stanu ta obgruntuvannya osnov suchasnoyi teoriyi stokhastychnykh syhnaliv: enerhetychna kontseptsiya, matematychnyy substrat, fizychne tlumachennya: monohrafiya; nats. un-t “Lʹviv. politekhnika”, Ternop. nats. tekhn. un-t im. Ivana Pulyuya. Lʹviv, Ukr. tekhnolohiyi. 2014. [In Ukrainian].
9. Palaniza Y. B., Shadrina H. M., Khvostivskiy M. O., Dediv L. Ye., Dozorska O. F. Main theoretical basis of biosignals modeling. Znanstvena misel. Slovenia. 2018. No. 16. P. 39–44.
|
References: |
1. Tkachuk R. A., Tsupryk H. B., i Yavorsʹkyy B. I., “Pidvyshchennya informatyvnosti ta shvydkosti biotekhnichnykh system”. Opt-el. inf-enerh. tekhn. Vyp. 24. Vyp. 2. P. 81–85. Zhov 2013. [In Ukrainian].
2. Yavorska E. B. Matematychni modeli ta metody opratsyuvannya rytmokardiosyhnaliv dlya vyznachennya kharakterystyk sertsevoyi rytmiky z prohnozovanoyu virohidnistyu. Ternopil. TNTU. 2009. [In Ukrainian]
3. Dragan Yа. P., Yavorskyy B. I., Yavorska Ye. B. Kontseptsiyi i pryntsypy pobudovy modeley dlya vyznachennya metrolohichnykh kharakterystyk rytmiky kardiosyhnaliv. Visnyk Natsionalʹnoho universytetu “Lʹvivsʹka politekhnika”. Lʹviv: Vydavnytstvo Natsionalʹnoho universytetu “Lʹvivsʹka politekhnika”, 2002. № 443. Radioelektronika ta telekomunikatsiyi. P. 200–205. [In Ukrainian].
4. Tsupryk H. B. Using Hilbert Transform for biosignal samples ansamble statistical estimation. Visnyk NTUU “KPI” seriia-Radiotekhnika radioaparatobuduvannia. 2015. 62: P. 94–99.
5. Yavorskyy B. Numerical simulation of the quantum states of squeezed light. Optyko-elektronni informatsiino-enerhetychni tekhnolohii. 2009. No. 2. P. 138–144.
6. Tsupryk H. B. Veryfikatsiya metodu otsinyuvannya rezulʹtatu aktyvnoho informatsiynoho doslidzhennya bioobʺyektu. Materialy XVIII naukovoyi konferentsiyi TNTU im. I. Pulyuya. 2014. P. 107–108. [In Ukrainian].
7. Tsupryk H. Providing the coherence of biosignal system in information analytical biomedical. Bulletin of TNTU. Ternopil. 2015. Volume 77. No. 1. P. 275–282. [In Ukrainian].
8. Dragan Ya. P., Sikora L. S., Yavorskyi B. I.. Drahan YA., Sikora L., Yavorsʹkyy B. Systemnyy analiz stanu ta obgruntuvannya osnov suchasnoyi teoriyi stokhastychnykh syhnaliv: enerhetychna kontseptsiya, matematychnyy substrat, fizychne tlumachennya: monohrafiya; nats. un-t “Lʹviv. politekhnika”, Ternop. nats. tekhn. un-t im. Ivana Pulyuya. Lʹviv, Ukr. tekhnolohiyi. 2014. [In Ukrainian].
9. Palaniza Y. B., Shadrina H. M., Khvostivskiy M. O., Dediv L. Ye., Dozorska O. F. Main theoretical basis of biosignals modeling. Znanstvena misel. Slovenia. 2018. No. 16. P. 39–44.
|
Завантажити | |
|