Methods of ensuring electromagnetic compatibility in modern information communication systems
Keywords:
multi-user system, the Euclidean distance, the signal ensemble, cryptographic signal, orthogonal signal derivative signal system, the correlation function
Abstract
Requirements are formulated for the choice of complex signals systems – data carriers for use in multi-user broadband telecommunication systems (BTS), which are increased requirements for noise immunity, electromagnetic compatibility, stealth operation and information security data. Conceptual bases are presented of synthesis for a new class of complex signals – cryptographic signals (CS). The justified advisability of application of CS protected BTS, including the construction of derivative signal systems to improve the performance of noise immunity, interference immunity, electromagnetic compatibility transmission security and information security data in protected BTS.
Downloads
Download data is not yet available.
References
Ipatov Valery P. Spread Spectrum and CDMA.Principles and Applications / Valery P. Ipatov. University of Turku, Finland and St. Petersburg Electrotechnical University ‘LETI’, Russia. – John Wiley & Sons Ltd, The Atrium, Southern Gate, Chichester, West Sussex PO19 8SQ, England. – 2005. – 385 p.
Varakin L. E. Sistemy svyazi s shumopodobnymi signalami / Varakin L. E. – 1985. – 384 s.
Sverdlik M. B. Optimal'nye diskretnye signaly / Sverdlik M. B. - M: Radio i svyaz', 1975. – 200 s.
Sarvate, D.V. Crosleration Properties of Pseudorandom and Related Sequences / D.V. Sarvate, M.V. Pursley // IEEE Trans. Commun, 1980. – Vol. Com 68 – P. 59–90.
Gorbenko I.D., Zamula A.A., Semenko Ye.A. Ensemble and correlation properties of cryptographic signals for telecommunication system and network applications // Telecommunications and Radio Engineering. - Volume 75, 2016 Issue 2. pages 169-178.
Gold, R. Optimal binary sequences for spread spectrum multiplexing // IEEE Trans. Inform. Theory.– 1967. Vol. 13. – P. 619–621.
Karpenko O., Kuznetsov A., Sai V., Stasev Yu. Discrete Signals with Multi-Level Correlation Function // Telecommunications and Radio Engineering. – Volume 71, 2012 Issue 1. pp. 91-98.
Naumenko N.I., Stasev Yu.V., Kuznetsov A.A. Methods of synthesis of signals with prescribed properties // Cybernetics and Systems Analysis, Volume 43, Issue 3, May 2007, pp. 321-326.
Stasev Yu.V., Kuznetsov A.A., Nosik A.M. Formation of pseudorandom sequences with improved autocorrelation properties // Cybernetics and Systems Analysis, Volume 43, Issue 1, January 2007, pp. 1–11.
Lavrovska, T., Rassomahin, S. Physical model of pseudorandom codes in multidimensional Euclidean space. // 2016 Third International Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 67-70.
Gorbenko I.D., Gorbenko Ju.I. Prykladna kryptologija. Teorija. Praktyka. Zastosuvannja: monografija – Harkiv.: Vydavnyctvo «Fort», 2012. – 880 s. (in Ukrainian).
Zamula A.A., Semenko E.A Perspektivy primeneniya nelineinykh diskretnykh signalov v sovremennykh telekommunikatsionnykh sistemakh i setyakh // Sistemi obrobki іnformatsії:– Kh.: KhUPS, 2015. – Vip. 5 (130).– S. 129 - 134. (in Russian).
Gorbenko I.D., Zamula A.A. Kriptograficheskie signaly: trebovaniya, metody sinteza, svoistva, primenenie v telekommunikatsionnykh sistemakh // Radiotekhnika: Vseukrainskii mezhvedomstvennyi nauchno – tekhnichneskii sbornik - 2016 g. - Vyp. 186. – S. 7–23. (in Russian).
Application Notes and Interpretation of the Scheme (AIS) 31. Functionality classes and evaluation methodology for physical random number generators. Certification body of the BSI in context of certification scheme. BSI, 2001.
DSTU 7624:2014. Informacijni tehnologii'. Kryptografichnyj zahyst informacii'. Algorytm symetrychnogo blokovogo peretvorennja. – Vved. 01–07–2015. – K.: Minekonomrozvytku Ukrai'ny, 2015. (in Ukrainian).
Kuznetsov O., Gorbenko Y., Kolovanova I. Combinatorial properties of block symmetric ciphers key schedule. // 2016 Third International Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 55-58.
Kuznetsov O., Lutsenko M., Ivanenko D. Strumok stream cipher: Specification and basic properties // 2016 Third International Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 59-62.
ISCI’2017: Information Security in Critical Infrastructures. Collective monograph. Edited by Ivan D. Gorbenko and Alexandr A. Kuznetsov. ASC Academic Publishing, USA, 2017. – 207 p.
Kaidalov D., Oliynykov R., Kazymyrov O. A method for security estimation of the SPN-based block cipher against related-key attacks // Tatra Mountains Mathematical Publications. – Volume 60, Issue 1, Pages 25–45.
Ruzhentsev V., Oliynykov R. Properties of Linear Transformations for Symmetric Block Ciphers on the basis of MDS-codes // Proceedings of the 6th International Conference on Network Architecture and Information System Security SAR-SSI 2011, pp. 193-196.
Rodinko M., Oliynykov R.,Gorbenko Y. Improvement of the high nonlinear S-boxes generation method. // 2016 Third Interna-tional Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 63-66.
Krasnobayev V.A., Yanko A.S., Koshman S.A. A Method for arithmetic comparison of data represented in a residue number system // Cybernetics and Systems Analysis. – January 2016. – Volume 52, Issue 1, pp. 145-150.
NIST 800-90 b Recommendation for the Entropy Sources Used for Random Bit Generation, 2012.
Potii A.V., Pesterev A.K. A System Approach to Certification of Pseudorandom Numbers Generators Used in Information Protection Systems // Telecommunications and Radio Engineering. – Volume 52, 1998 Issue 4. pages 97-102.
I. D. Gorbenko, А. А. Zamula, A. E. Semenko, V. L. Morozov Method for complex improvement of characteristics of orthogonal ensembles based on multiplicative combining of signals of different classes // Telecommunications and Radio Engineering Volume 76, 2017 Issue 18, pages 1581-1594 .
Varakin L. E. Sistemy svyazi s shumopodobnymi signalami / Varakin L. E. – 1985. – 384 s.
Sverdlik M. B. Optimal'nye diskretnye signaly / Sverdlik M. B. - M: Radio i svyaz', 1975. – 200 s.
Sarvate, D.V. Crosleration Properties of Pseudorandom and Related Sequences / D.V. Sarvate, M.V. Pursley // IEEE Trans. Commun, 1980. – Vol. Com 68 – P. 59–90.
Gorbenko I.D., Zamula A.A., Semenko Ye.A. Ensemble and correlation properties of cryptographic signals for telecommunication system and network applications // Telecommunications and Radio Engineering. - Volume 75, 2016 Issue 2. pages 169-178.
Gold, R. Optimal binary sequences for spread spectrum multiplexing // IEEE Trans. Inform. Theory.– 1967. Vol. 13. – P. 619–621.
Karpenko O., Kuznetsov A., Sai V., Stasev Yu. Discrete Signals with Multi-Level Correlation Function // Telecommunications and Radio Engineering. – Volume 71, 2012 Issue 1. pp. 91-98.
Naumenko N.I., Stasev Yu.V., Kuznetsov A.A. Methods of synthesis of signals with prescribed properties // Cybernetics and Systems Analysis, Volume 43, Issue 3, May 2007, pp. 321-326.
Stasev Yu.V., Kuznetsov A.A., Nosik A.M. Formation of pseudorandom sequences with improved autocorrelation properties // Cybernetics and Systems Analysis, Volume 43, Issue 1, January 2007, pp. 1–11.
Lavrovska, T., Rassomahin, S. Physical model of pseudorandom codes in multidimensional Euclidean space. // 2016 Third International Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 67-70.
Gorbenko I.D., Gorbenko Ju.I. Prykladna kryptologija. Teorija. Praktyka. Zastosuvannja: monografija – Harkiv.: Vydavnyctvo «Fort», 2012. – 880 s. (in Ukrainian).
Zamula A.A., Semenko E.A Perspektivy primeneniya nelineinykh diskretnykh signalov v sovremennykh telekommunikatsionnykh sistemakh i setyakh // Sistemi obrobki іnformatsії:– Kh.: KhUPS, 2015. – Vip. 5 (130).– S. 129 - 134. (in Russian).
Gorbenko I.D., Zamula A.A. Kriptograficheskie signaly: trebovaniya, metody sinteza, svoistva, primenenie v telekommunikatsionnykh sistemakh // Radiotekhnika: Vseukrainskii mezhvedomstvennyi nauchno – tekhnichneskii sbornik - 2016 g. - Vyp. 186. – S. 7–23. (in Russian).
Application Notes and Interpretation of the Scheme (AIS) 31. Functionality classes and evaluation methodology for physical random number generators. Certification body of the BSI in context of certification scheme. BSI, 2001.
DSTU 7624:2014. Informacijni tehnologii'. Kryptografichnyj zahyst informacii'. Algorytm symetrychnogo blokovogo peretvorennja. – Vved. 01–07–2015. – K.: Minekonomrozvytku Ukrai'ny, 2015. (in Ukrainian).
Kuznetsov O., Gorbenko Y., Kolovanova I. Combinatorial properties of block symmetric ciphers key schedule. // 2016 Third International Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 55-58.
Kuznetsov O., Lutsenko M., Ivanenko D. Strumok stream cipher: Specification and basic properties // 2016 Third International Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 59-62.
ISCI’2017: Information Security in Critical Infrastructures. Collective monograph. Edited by Ivan D. Gorbenko and Alexandr A. Kuznetsov. ASC Academic Publishing, USA, 2017. – 207 p.
Kaidalov D., Oliynykov R., Kazymyrov O. A method for security estimation of the SPN-based block cipher against related-key attacks // Tatra Mountains Mathematical Publications. – Volume 60, Issue 1, Pages 25–45.
Ruzhentsev V., Oliynykov R. Properties of Linear Transformations for Symmetric Block Ciphers on the basis of MDS-codes // Proceedings of the 6th International Conference on Network Architecture and Information System Security SAR-SSI 2011, pp. 193-196.
Rodinko M., Oliynykov R.,Gorbenko Y. Improvement of the high nonlinear S-boxes generation method. // 2016 Third Interna-tional Scientific-Practical Conference Problems of Infocommunications Science and Technology (PIC S&T), Kharkiv, 2016, pp. 63-66.
Krasnobayev V.A., Yanko A.S., Koshman S.A. A Method for arithmetic comparison of data represented in a residue number system // Cybernetics and Systems Analysis. – January 2016. – Volume 52, Issue 1, pp. 145-150.
NIST 800-90 b Recommendation for the Entropy Sources Used for Random Bit Generation, 2012.
Potii A.V., Pesterev A.K. A System Approach to Certification of Pseudorandom Numbers Generators Used in Information Protection Systems // Telecommunications and Radio Engineering. – Volume 52, 1998 Issue 4. pages 97-102.
I. D. Gorbenko, А. А. Zamula, A. E. Semenko, V. L. Morozov Method for complex improvement of characteristics of orthogonal ensembles based on multiplicative combining of signals of different classes // Telecommunications and Radio Engineering Volume 76, 2017 Issue 18, pages 1581-1594 .
Published
2018-04-27
Cited
How to Cite
Gorbenko, I., Morozov, V., & Zamula, A. (2018). Methods of ensuring electromagnetic compatibility in modern information communication systems. Computer Science and Cybersecurity, (4), 49-70. Retrieved from https://periodicals.karazin.ua/cscs/article/view/10457
Issue
Section
Статті
