Advances In Cyber-Physical Systems

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Now showing 1 - 9 of 9
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    Using Improved Homophonic Encryption on the Example of Code Zodiac Z408 to Transfer Encrypted Information Based on Data Traffic
    (Lviv Politechnic Publishing House, 2021-03-01) Mamro, Oleksandr; Lagun, Andrii; Lviv Polytechnic National University
    This article examines the improvement of homophonic encryption using the well-known Z408 cipher as an example, and analyzes their problems to further correct the main shortcomings of this typea of encryption. In the practical part, an encryption system similar to Z408 was created and the complexity ofthe language analysis for this cipher was increased. The correlation dat of the number of alternative characters was used to improve the transmission of encrypted data depending on the load of the device. The more symbols and the higher the load, the fewer the number of alternative symbols will be used.
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    Numerical Simulation of Cyber-Physical Biosensor Systems on the Basis of Lattice Difference Equations
    (Видавництво Львівської політехніки, 2019-02-26) Martsenyuk, Vasyl; Kłos-Witkowska, Aleksandra; Sverstiuk, Andriy; Bahrii-Zaiats, Oksana; University of Bielsko-Biala; I. Gorbachevsky Ternopil National Medical University
    Cyber physical systems (CPS) include a lot of high complexity computing such as dynamic analysis and verification of continuous dynamic property, analysis and verification of real-time property, analysis and verification of spatial property, scheduling and fault tolerance. In this paper, some of the research directions that we are taking toward addressing some of the challenges involved in building cyber physical systems have been described. Taking into account the features of the cyber-physical sensor systems, the basic model has been modified. Lattice images in biopixels have been modified according to the laws of discrete dynamics. The developed models take into account the interaction of biopixels with each other by antigen diffusion. The comparative analysis of CPS models on rectangular and hexagonal lattices using differenсе equations has been considered in the work. The results of numerical simulations in the form of phase plane images and lattice images of the probability of antigen to antibody binding in the biopixels of cyber-physical biosensor systems for antibody populations relative to antigen populations have been received in the paper. The comparative analysis of the results of numerical modeling of mathematical models of cyber-physical biosensor systems on rectangular and hexagonal lattices using lattice difference equations with delay has been considered.
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    Master of computer engineering program with specialization in Cyber-Physical Systems
    (Lviv Politechnic Publishing House, 2019-02-26) Melnyk, Anatoliy; Botchkaryov, Alexey; Lviv Polytechnic National University
    The problem of designing a master of computer engineering program with a specialization in cyber-physical systems has been considered. The concept of cyber-physical systems has been analyzed from the perspective of generalization and formalization for educational purposes. The need for designing a master program in cyber-physical systems has been justified. Program competencies and learning outcomes have been defined. The structure of the master of computer engineering program with a specialization in cyber-physical systems and the corresponding structural-logical scheme of master's training have been regarded.
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    Invariants of noise in cyber-physical systems components
    (Lviv Politechnic Publishing House, 2017-12-03) Nyemkova, Elena; Lviv Polytechnic National University
    The article is devoted to the invariant of internal electrical noise of electronic devices, which are components of cyber-physical systems. Time series of noise signals show chaotic behavior. Invariants are based on the autocorrelation function of dynamic time series. Insignificant differences on the micro-level devices lead to changes in the dynamics of time series. It is shown that the form of the autocorrelation function is unchanged for each electronic device of the cyber-physical system. The dynamic authentication algorithm has been developed, which consists of choosing a range of time series, defining and calculating invariants, making decisions about authentication. The result of the operation of the algorithm can be transferred to the executive mechanism, depending on the practical problems in cyber-physical systems. Also for the pseudorandom sequence of the embedded program generator, the following values are predicted on the basis of invariants. Estimated errors are calculated.
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    Cyber-physical system for solving travelling salesman problem
    (Lviv Politechnic Publishing House, 2017-02-01) Muliarevych, Oleksandr; Lviv Polytechnic National University
    In this paper new approaches for solving dynamic Travelling Salesman Problem (TSP) in conditions of partly unknown input data are given.
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    Biotechnical components of cyber-physical systems
    (Lviv Politechnic Publishing House, 2017-02-01) Berezko, Leonid; Sokolov, Serhii; Lviv Polytechnic National University
    We synthesized the general structures of biomedical electric impedance biotechnical systems as a part of cyber-physical systems and propose methodological recommendations on the electric impedance equipment development.
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    Characteristic express checking of admittance measurement units for cyber-physical systems
    (Publishing House of Lviv Polytechnic National University, 2016) Yatsuk, Vasyl; Pokhodylo, Yevhen; Bubela, Tetiana; Yatsuk, Yurii; Lviv Polytechnic National University
    Measurement of RLC-parameters of objects non-electric nature (for example, biological, agricultural, environmental, etc.) with high metrological characteristics is an essential element for building a cyber-physical systems analytical purposes. The reliability of the measurement results of the equipment can be provided only by periodic metrological control over the exploitation conditions. Traditionally analytical RLC-meters are calibrated by means of standard samples and it leads to significant problems in their metrological assurance and complicates whole procedure. It is suggested to make operating check of admittance measurement units metrological characteristics by use of intelligent devices based on code-controlled measures. Critical analysis of available approaches for measures creation was carried out and an admittance codecontrolled measure scheme based on active simulators was designed. The mathematic model for measuring transfer function, analytical devices calibration process and advantages of the operating check based code-controlled measure was presented too.
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    Remote errors correction of multi-channel cyber-physical measuring systems
    (Publishing House of Lviv Polytechnic National University, 2016) Yatsuk, Vasyl; Mykyjchuk, Mykola
    The method of remote auto calibration measurement channels cyber-physical systems in real time using code-controlled measures is described. Additive error components as measurement as well the reference channels is adjusted by switching invert method. It is shown that the resulting measurement error virtually determined by codecontrolled measures error that could it serve as a basis for implementing remote auto calibration and operative check of metrological characteristics of measuring channels cyber-physical systems. The results of the experimental study model code-controlled measures showed good coincidence with the theoretical model.
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    Cyber-physical systems multilayer platform and research framework
    (Publishing House of Lviv Polytechnic National University, 2016) Melnyk, Anatoliy
    The issues of cyber-physical systems creation and approaches to their solving are formed in the article. The base principles of the multilayer platform for Cyber- Physical Systems are formed in accordance with achievements and modern conceptions of computer, information and telecommunication technologies application. The structure of the multilayer platform for Cyber-Physical Systems are offered, its applications and functions are described. Future directions for research within the framework of each of six layers of the Cyber-Physical System and within the framework of its general organization are formed. The expected results from its implementation are defined.