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Volume 1, Number 1 (2016)
A foreword from the Editor
CYBER-PHYSICAL SYSTEMS MULTILAYER PLATFORM AND RESEARCH FRAMEWORK
Anatoliy Melnyk
Lviv Polytechnic National University, 12, Bandera Str., Lviv, 79013, Ukraine
Author e-mail: aomelnyk@lp.edu.ua
Submitted on 15.11.2015
Melnyk A., 2016
Abstract: 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 achieve¬ments 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.
Key words: cyber-physical systems, cybernetic tools, physical world, interaction with physical world, information acquisition, data processing, decision making, personal service
Література – 9.
TASKS SCALING WITH CHAMELEON© C2HDL DESIGN TOOL IN SELF-CONFIGURABLE COMPUTER SYSTEMS 3 BASED ON PARTIALLY RECONFIGURABLE FPGAS
Anatoliy Melnyk, Viktor Melnyk, Liubomyr Tsyhylyk
Lviv Polytechnic National University, 12, Bandera Str., Lviv, 79013, Ukraine
Author e-mail: aomelnyk@lp.edu.ua
Submitted on 24.03.2016
Melnyk А., 2016
Abstract: The FPGA-based accelerators and reconfigurable computer systems based on them require designing the application-specific processor soft-cores and are effective for certain classes of problems only, for which application-specific processor soft-cores were previously developed. In Self-Configurable FPGA-based Computer Systems the problem of designing the application-specific processor soft-cores is solved with use of the C2HDL tools, allowing them to be generated automatically. In this paper, we study the questions of the self-configurable computer systems efficiency increasing with use of the partially reconfigurable FPGAs and Chameleon© C2HDL design tool. One of the features of the Chameleon© C2HDL design tool is its ability to generate a number of application-specific processor soft-cores executing the same algorithm that differ by the amount of FPGA resources required for their implementation. If the self-configurable computer systems are based on partially reconfigurable FPGAs, this feature allows them to acquire in every moment of its operation such a configuration that will provide an optimal use of its reconfigurable logic at a given level of hardware multitasking.
Key words: self-configurable computer systems, field-programmable gate arrays, high-performance computing, reconfigurable computing, hardware multitasking, C2HDL design tools.
Література – 14.
VENDING CYBER-PHYSICAL SYSTEMS ARCHITECTURE
Andriy Salo
Lviv Polytechnic National University, 12, Bandera Str., Lviv, 79013, Ukraine
Author e-mail: ansalo@yahoo.com
Submitted on 22.02.2016
Salo А., 2016
Abstract: In this work organization and principles of multilevel vending cyber physical systems (VCPS) development have been examined. VCPS purposes and functions on each level as well as interlevel interaction have been described, as well as the classification of vending machines has been offered. The results of analytical system work have been shown graphically.
Key words: vending, cyber physical systems, vending cyber physical systems, processing, monitoring, vending machines, server system, database, transaction, configuration, physical world, automated system.
Література – 12
ERRORS OF PHASE SHIFT MEASURING BY ALGORITHMIC SUM-DIFFERENCE METHODS FROM AMPLITUDES INEQUALITY AND THEIR REDUCTION METHODS
Ihor Buchma
Lviv Polytechnic National University, 12, Bandera Str., Lviv, 79013, Ukraine
Author e-mail: ibuchma1@gmail.com
Submitted on 29.09.2015
Buchma І., 2016
Abstract: This paper analyzes the errors entailed by the signal amplitude inequality when measuring the phase shift among low frequency harmonic signals for algorithmic sum-difference methods. It is shown that additional phase shifts of summary and difference signals caused by the inequality of compared signals in some methods affect the errors, whereas in others they do not. A method in which there is no additive component of the error has been found. This method has been admitted to be the best to measure small phase shifts.
The method for measuring the phase shift, which enables to avoid errors due to amplitude inequality of compared signals has been proposed.
Key words: errors, harmonic signals, signal amplitude inequality, phase measuring, low frequency, sum-difference method, amplitude errors.
Література – 6.
THE PRINCIPLES OF THE CYBER-PHYSICAL COMPONENTS' ORGANIZATION BASED ON THE METHODS OF THE MULTI-AGENT INTERACTION OF THE MOVING OBJECTS
Maxim Musiyenko, Iryna Zhuravska, Ivan Burlachenko and Oleksii Denysov
Petro Mohyla Black Sea State University (BSSU), 10, 68 Desantnykiv Str., Mykolaiv, 54003,Ukraine.
Author e-mail: musienko2001@ukr.net
Submitted on 16.12.2015
Musiyenko М., Zhuravska І., Burlachenko І., Denysov О., 2016
Abstract: In these article the mathematical model of multi-agent CFS is proposed for describe of behavior of moving objects, interacting under wireless communication link on 802.11 standard. It has shown that the more important criteria for CFS, consisting of mobile objects, is the stability of communications. The stable transmission rate is achieved by reducing the asymmetry of the link between the cyber-physical components. This will ensure the rhythmical loading of the computing board processors (CPU or / and GPU) on cyber object. The models of camera's matrices and computing boards for unmanned vehicles (UMV) are analyzed and proposed. The methods of avoidance the dropping of rate due to interference from the connecting to the ether of new access points, non-containing to CFS, are presented. The research and results contributes to the improving quality of transmission and processing data from wireless cyber-physical components.
Key words: cyber-physical components, multi-agent system (MAS), unmanned vehicles (UMV), wireless network, 802.11, video stream, computing board.
Література – 32
SMART MEASURING INSTRUMENTS FOR CYBER-PHYSICAL SYSTEMS
Mykola Mykyychuk, Svyatoslav Yatsyshyn, Bohdan Stadnyk, Yaroslav Lutsyk
Lviv Polytechnic National University, 12, Bandera Str., Lviv, 79013, Ukraine
Author e-mail: slav.yat@gmail.com
Submitted on 09.03.2016
Mykyychuk M., Yatsyshyn S., Stadnyk B., Lutsyk Ya., 2016
Abstract: Aiming the substantial development of Cyber-Physical systems, which are becoming a key element of everyday life, the smart measuring instruments are considered below as the indispensable part of entire systems. Verification of the metrological subsystems for parameters determining the controlled equipment and processes through the development, implementation and realization of specific metrology and standardization methods, instruments, that is successfully described by the terms “metrological hardware, software, and middleware”.
Key words: smart measuring instruments, smart sensors grids, distributed sensors networks, metrological software and middleware, verification.
Література – 29.
REMOTE ERRORS CORRECTION OF MULTI-CHANNEL CYBER-PHYSICAL MEASURING SYSTEMS
Vasyl Yatsuk and Mykola Mykyjchuk
Lviv Polytechnic National University, 12, Bandera Str., Lviv, 79013, Ukraine
Author e-mails: vyatsuk@polynet.lviv.ua, mykolamm@ukr.net
Submitted on 21.10.2015
Yatsuk V., Mykyjchuk M., 2016
Abstract: 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 code-controlled 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.
Key words: Code-controlled measures, cyber-physical systems, measurement channels, operative check of metrological characteristics, remote auto calibration, switching invert method.
SELF-CONFIGURABLE FPGA-BASED COMPUTER SYSTEMS: BASICS AND PROOF OF CONCEPT
Viktor Melnyk
Lviv Polytechnic National University, 12, Bandera Str., Lviv, 79013, Ukraine
Author e-mails: viktor.a.melnyk@gmail.com
Submitted on 30.11.2015
Melnyk V., 2016
Abstract: Computer systems performance is today improved with two major approaches: general-purpose computer computing power increase (creation of multicore processors, multiprocessor computer systems, super¬computers), and adaptation of the computer hardware to the executed algorithm (class of algorithms). The last approach often provides application of hardware accelerators – ASIC-based and FPGA-based, also named reconfigurable, and is characterized by better perfor¬mance / power consumption ratio and lower cost as compared to the general-purpose computers of equivalent performance. However, such systems have typical problems. The ASIC-based accelerators: 1) they are effective only for certain classes of algorithms; 2) for effective application there is a need to adapt algorithms and software. The FPGA-based accelerators and reconfigurable computer systems (that use FPGAs as a processing units): 1) the need in the process of writing a program to perform computing tasks balancing among the general-purpose computer and FPGA; 2) the need of designing application-specific processors soft-cores; and 3) they are effective only for certain classes of problems, for which application-specific processors soft-cores were previously developed.
This paper covers the scope of questions regarding concept of design, architecture, and proof of concept of the Self-Configurable FPGA-Based Computer Systems – an emerging type of high-performance computer systems, which are deprived of specified challenges. The method of information processing in reconfigurable computer systems and its improvements that allow an information processing efficiency to increase are shown. These improvements are used as a base for creating a new type of high-performance computer systems with reconfigurable logic, which are named self-configurable ones, and a new method of information processing in these systems. The structure of self-configurable FPGA-based computer system, the rules of application of computer software and hardware means necessary for these systems implementation are described. Major processes on the stages of program loading and execution in the self-configurable computer system are studied, and their durational characteristics are determined. On the basis of these characteristics, the expressions for evaluating the program execution duration in the self-configurable computer system are obtained. The directions for further works are discussed.
Key words: field programmable gate arrays, high performance computing, reconfigurable architectures, reconfigurable logic, self-configurable computer system.
Література – 30.
