Experimental research of turbo-codes application in telemedicine systems with wireless body area sensor networks

• Autorzy: Kvyetnyy Roman N. , Ivanov Yuriy Yu. , Kulyk Yaroslav A. , Knysh Bogdan P. , Krivogubchenko Sergiy G. , Ivanov Igor Yu. , Wójcik Waldemar , Sagymbekova Azhar , Askarova Nursanat

Identyfikatory

DOI

10.15199/48.2019.04.30

Warianty tytułu

PL

Eksperymentalne badania zastosowań turbo-kodów w systemach telemedycznych z bezprzewodowymi sieciami czujników ciała

• Języki publikacji: EN

Abstrakty

EN

The paper shows telemedicine system with wireless body area sensor networks as a potential technology to provide extremely high quality and convenience for people.We discuss a communication process unit with turbo-codec, that can work with necessary requirements, such as extremely low signal power and high reliability of data transmission. also, the turbo-encoding and decoding math is briefly overviewed. the simulation of turbo-codec work in these networks is shown. experimental functions of bit error rate are found.

PL

W artykule przedstawiono system telemedyczny z bezprzewodowyą siecią czujników umieszczaną w obszarze ciała jako potencjalną technologię, która ma zapewnić wyjątkowo wysoką jakość i wygodę dla ludzi. Przedstawiony proces komunikacyjny może pracować przy wymaganiach tj. wyjątkowo niska moc sygnału i wysoka niezawodność transmisji danych.

Słowa kluczowe

EN

communication technologies; error-correcting codes; MAP; SOVA

PL

technologie komunikacyjne; kod korekcji błędów; MAP; SOVA

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2019
• Tom: R. 95, nr 4
• Strony: 167--171
• Opis fizyczny: Bibliogr. 43 poz., rys.

Twórcy

autor

Kvyetnyy Roman N.

• Vinnytsia National Technical University, Khmelnytsky Hwy, 95, 21021 Vinnitsa, Ukraine

autor

Ivanov Yuriy Yu.

• Vinnytsia National Technical University, Khmelnytsky Hwy, 95, 21021 Vinnitsa, Ukraine

autor

Kulyk Yaroslav A.

• Vinnytsia National Technical University, Khmelnytsky Hwy, 95, 21021 Vinnitsa, Ukraine

autor

Knysh Bogdan P.

• Vinnytsia National Technical University, Khmelnytsky Hwy, 95, 21021 Vinnitsa, Ukraine

autor

Krivogubchenko Sergiy G.

• Vinnytsia National Technical University, Khmelnytsky Hwy, 95, 21021 Vinnitsa, Ukraine

autor

Ivanov Igor Yu.

• Podilskiy Regional Center of Oncology

autor

Wójcik Waldemar

• Lublin University of Technology, Institute of Electronics and Information Technology, Nadbystrzycka 38A, 20618 Lublin, Poland

autor

Sagymbekova Azhar

• International Information University (IITU), Almaty, Kazakhstan

autor

Askarova Nursanat

• Almaty University of Power Engineering and Telecommunications (AUPET)

Bibliografia

• [1] Liang Li., Analysis of Low Power Implementational Issues of Turbo-like Codes in Body Area Networks, Ph.D. dissertation- University of Southampton, England, (2009), 87
• [2] Li H.-B., Takizawa K., Zhen B., Kohno, R., Body Area Network and Its Standardization at IEEE 802.15.MBAN”, Proceedings on 16th Mobile and Wireless Communications Summit, Budapest, Hungary, (2007), 1-5
• [3] Zhen B., Li H.-B., Kohno R., IEEE Body Area Networks for Medical Applications, Proceedings on 4th International Symposium on Wireless Communication Systems, (2007), 327-331
• [4] Кulyk A.Ya., Іvanov Yu.Yu., Іvanov I.Yu., The Turbo-codes Application in Telemedicine Systems with the Wireless Body Area Sensor Networks, Proceedings on 12th Int. Conf. on Control and Management in Complex Systems, (2014), 206
• [5] Singh A., Kumar A., Kumar P., Body Sensor Network: A Modern Survey & Performance Study in Medical Perspect, International Conference on Recent Trends in Applied Sciences with Engineering Applications, 3 (2013), 12-17
• [6] Kwak K.S., Ullah S., Ullah, N., An Overview of IEEE 802.15.6 Standard, Proceedings on 3rd International Symposium on Applied Sciences in Biomedical and Communication Technologies (ISABEL), (2010), 1-5
• [7] Chen M., Gonzalez S., Vasilakos A., et al., Body Area Networks: A Survey, Mobile Networks and Applications, 16 (2011), 171-193
• [8] Islam M.R., Error Correction Codes in Wireless Sensor Network: An Energy Aware Approach, World Academy of Science, Engineering and Technology, 4 (2010), 535-540
• [9] IEEE Standard for Local and Metropolitan Area Networks. Part 15.6: Wireless Body Area Networks, IEEE, (2012), 271
• [10] Tanenbaum A.S., Wetherall D.J., Computer Networks, Prentice Hall, (2010), 3-89
• [11] Berrou, C., Glavieux, A., Thitimajshima, P., Near Shannon Limit Error-Correcting Coding and Decoding: Turbo-Codes, Proceedings of ICC’93, (1993), 1064-1070
• [12] Berrou, C., Douillard C., Jezequel, M., et. al., Channel Сoding in Сommunication Networks. From Theory to Turbocodes, Chippenham, (2007), 255-371
• [13] Ivanov Yu.Yu., Kulyk A.Ia., On Some Aspects of the Iterative Strategy of Turbo Decoding: Retrospective and “Turbo”principle, Proceedings of 4th International Scientific and Practical Conference Information Technologies and Computer Engineering, (2014), 157-160
• [14] Douillard, C., Jezequel, M., et. al., Codes and Turbo Codes, Springer, (2010), 213-271
• [15] Wu, Y., Implementation of Parallel and Serial Concatenated Convolutional Codes, Ph.D. dissertation Faculty of the Virginia Polytechnic Institute and State University, (2000)
• [16] Ivanov Yu.Yu., Experimental Research of Turbo Codes ErrorCorrection Characteristics: Numerical Estimations and Simulation for Novel Suboptimal PL-Log-MAP Decoding Algorithm, Journal of Vinnytsia Polytechnical Institute, 5 (2016), 76-84
• [17] Krak Yu.V., Dynamics of manipulation robots: Numericalanalytical method of formation and investigation of computational complexity, Journal of Automation and Information Sciences, (1999) 31, No.1-3, 121-128
• [18] Surtel W., Maciejewski M., Różalski R., Architecture of a server application for use in environmental patient monitoring, Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska – IAPGOŚ, 3 (2013), No. 4, 35-37
• [19] Krak Yu.V., Robot-manipulator's dynamics: numericalanalytical method of formation and investigation of calculation complexity, Problemy Upravleniya I Informatiki (Avtomatika), (1998), No. 2, 139-148
• [20] Al-Maitah M., Timchenko L.I., Kokriatskaia N.I. et al., Parallelhierarchical network as the model of neurocomputing, Proceedings of SPIE 10808, (2018)
• [21] Woodard J., Hanzo L., Comparative Study of Turbo Decoding Techniques: An Overview, IEEE Transactions on Vehicular Technology, 49 (2000), No. 6, 2208-2233
• [22] Kulyk A., Ivanov Yu., Krivogubchenko S., A Viterbi Algorithm as a Key to Decoding Turbo-Code, Nauka i studia, Przemysł, 11(2012), 60-65
• [23] Ivanov Yu.Yu., Hardware and Software Features of the Turbo Codes: Analysis of the Implementation Complexity on Digital Signal Processor, Journal of Vinnytsia Polytechnical Institute, Vinnytsia, 3 (2016)
• [24] Hanzo L., Liew T.H., Yeap B.L., Turbo Coding, Turbo Equalisation and Space-Time Coding for Transmission over Wireless Channels, Southampton, (2002), 107-170
• [25] Ivanov Yu.Yu., Romanyuk A.N., Kulyk A.Ia., Stukach O.V., A Novel Suboptimal Piecewise-Linear-log-MAP Algorithm for Turbo Decoding, Proceedings of 11th IEEE International Siberian Conference on Control and Communications (SIBCON), (2015), 1-8
• [26] Ivanov Yu.Yu., Stukach O.V., Romanyuk A.N., A Brief Overview and Experimental Researches of Novel PL-log-MAP Turbo Decoding Algorithm, Proceedings on 13th IEEE International Siberian Conference on Control and Communications (SIBCON), (2017), 1-6
• [27] Kirichenko M.F., Krak Yu.V., Polishchuk A.A., Pseudo inverse and projective matrices in problems of synthesis of functional transformers, Kibernetika i Sistemnyj Analiz, 40 (2004), No. 3, 116-129
• [28] Urbanovich P., Romanenko D., ShimanD., Vitkova M., Multithreshold majority decoding of LDPC-codes, IAPGOŚ, 2 (2012), No. 4a, 22-24
• [29] Pavlov S.V., Kozhemiako V.P., Kolesnik P.F., et al., Physical principles of biomedical optics: monograph, VNTU, (2010), 152
• [30] Borovska T. N., Bykov N. M., Raimyn A., Optimal equivalent models of import replacement and localization of production, Far East Journal of Electronics and Communications, 16 (2016), No. 1, 5-35
• [31] Kvyetnyy R.N., Ivanov Yu.Yu., Krivogubchenko S.G., Stukach O.V., Features of Estimation the Transmission Data Process Using Turbo-Codes, Journal Metrology and Devices, 3 (2017), 25-32
• [32] Jiang Y., A Practical Guide to Error-Control Coding Using MATLAB, Artech House, (2010), 213-251
• [33] Vassilenko, Valtchev S., Teixeira J.P., Pavlov S., Energy harvesting: an interesting topic for education programs in engineering specialities, Internet, Education, Science, (2016), 149-156
• [34] Pavlov S.V., Barylo A.S., Kozlovska T.I. et al., Analysis of microcirculatory disorders in inflammatory processes in the maxillofacial region on based of optoelectronic methods, Przegląd Elektrotechniczny, 93 (2017), No. 5, 114 -117
• [35] Serkova V.K., Pavlov S.V., et al., Medical expert system for assessment of coronary heart disease destabilization based on the analysis of the level of soluble vascular adhesion molecules, Proc. SPIE 10445, (2017)
• [36] Pavlov S. V., Sander S. V., Kozlovska T. I., Kaminsky A. S., Wójcik W., et al., Laser photoplethysmography in integrated evaluation of collateral circulation of lower extremities, Proc. SPIE 8698, (2013)
• [37] Oleksiy D. Azarov, Oleksandr V. Dudnyk, Oleksandr V. Kaduk, Andrzej Smolarz, Aron Burlibay, "Method of correcting of the tracking ADC with weight redundancy conversion characteristic", Proc. SPIE 9816, Optical Fibers and Their Applications 2015, 98161V (17 December 2015)
• [38] Azarov O.D., Murashchenko O.G., Chernyak O.I., Smolarz A., Kashaganova G., Method of glitch reduction in DAC with weight redundancy, Proc. SPIE 9816, (2015)
• [39] Azarov O. D., Dudnyk O. D., Duk M., Porubov D., Static and dynamic characteristics of the self-calibrating multibit ADC analog components, Proc. SPIE 8698, (2013)
• [40] Azarov D., Chernyak A. I., Chernyak P. A., Class of numerical systems for pipeline bit sequential development of multiple optoelectronic data streams, Proc. SPIE 4425, (2001)
• [41] Osadchuk V.S., Osadchuk A.V., The Microelectronic Radiomeasuring Transducers of Magnetic Field with a Frequency Output, Electronics and Electrical Engineering, 110 (2011), No.4, 67-70
• [42] Grigor'ev A. Ya., Zholtkevich G. N., Nosov K. V., Gamulya Yu. G., Bespalov Yu. G., Vysotskaya E. V., Pecherskaya A. I., Diskretnye modeli dinamicheskikh sistem, opredelyayushchikh stabil'nost' gidrobiotsenozov, Veterinarnaya meditsina, (2014), No. 99, 164–167
• [43] Borovska T., Optimal Aggregation Models for the Problem of Minimizing the Total Expenses of Multiproduct Production, IEEE, (2016), 136-139

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).