кіберфізичні системи

Using Improved Homophonic Encryption on the Example of Code Zodiac Z408 to Transfer Encrypted Information Based on Data Traffic

The improvement of homophonic encryption using the well-known Z408 cipher as an example has been examined in this article. Their problems to further correct the main shortcomings of this type of encryption have been analyzed. In the practical part, an encryption system similar to Z408 has been created and the complexity of the language analysis for this cipher has been increased. The correlation data of the number of alternative characters has been used to improve the transmission of encrypted data depending on the load of the device.

Autonomous Cyberphysical System of Controlled Treatment and Water Composition Control

An autonomous cyberphysical adaptive system of controlled purification and control of water composition has been considered. Theoretical analysis and experimental studies of the functioning of the components of the proposed system of controlled purification and control of water composition has been performed. The proposed installation is designed to implement the technology of self-regulating system. When using intelligent digital means, it becomes an autonomous cyberphysical adaptive system of controlled purification and control of water composition.

Method for Time Minimization of Api Requests Service From Cyber-Physical System to Cloud Database Management System

Authors have analyzed the current state of cloud calculations and discovered the necessity of Application Programming Interface (API) usage in some of the cyber- physical systems (CPhS). The expediency of creating tools to reduce service time of Application Programming Interface requests and effective synchronization of the local and cloud database has been established. The authors clarified one of the main features of data replication. The expediency of using counter generations in the replication process instead of using system timer has been justified.

Numerical Simulation of Cyber-physical Biosensor Systems on the Basis of Lattice Difference Equations

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.

Master of Computer Engineering Program with a Specialization in Cyber-Physical Systems

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.

Invariants of Noise in Cyber-Physical Systems Components

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.

Кіберфізичні системи та їх програмне забезпечення

У зв’язку зі швидким розвитком кіберфізичних систем істотну увагу в світі звертають на різні аспекти їх формування й експлуатації. У 2014 р. NIST, USA створила Громадську робочу групу кіберфізичних систем для об’єднання широкого кола фахівців на відкритому громадському форумі, щоб допомогти визначити та сформувати їхні основні характеристики для керівництва розробленням та впровадженням «інтелектуальних» програм у різних сферах, серед яких розумні виробництво, транспортування, енергетика та охорона здоров’я.