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Публікація Cloud Infrastructure for Car Service(EWDTS, 2013) Litvinova, E. I.; Englesy, I. P; Miz, V. A; Shcherbin, D.A set of innovative scientific and technological solutions, including for solving social, human, economic and environmental problems associated with creation and use of a cloud for monitoring and management is developed. All of these technologies and tools are integrated into the automaton model of real-time interaction between monitoring and management clouds, vehicles and road infrastructure. Each car has a virtual model in a cyberspace - an individual cell in the cloud, which is invariant with respect to drivers of vehicles. Where does it go real cyber world? Corporate networks, personal computers, as well as individual services (software), go to the "clouds" of a cyberspace, which have an obvious tendency to partition the Internet for specialized services, Fig.1. If today 4 billion users are connected in the Internet (1 zettabytes = 7021 210 = bytes) by means of 50 billion gadgets, in five years each active user will have at least 10 devices for connecting in cyberspace. Use of personal computers without replicating data to all devices becomes impossible. But even simple copying requires more non-productive time for servicing systems and projects, which can reach 50% if several devices or servers with identical functions are available. Unprofessional (bad) service of such equipment creates problems reliable data retention, as well as unauthorized access. Also, there is a problem of remote access to the physical devices when migrating users in the space, and obtaining the necessary services and information from gadgets left at home or in the office is difficult. Economic factor of effective use of purchased applications installed in gadgets and personal computers, force the user to give up their purchase in favor of almost rent free services in the clouds. All of the above is an important argument and undeniable evidence of imminent transition or the outcome of all mankind to cyberspace of virtual networks and computers, located in reliable service clouds. Advantages of the virtual world lie in the fact that the micro-cells and macro-networks in the clouds are invariant with respect to numerous gadgets of each user or corporation. Cloud components solve almost all of the above problems of reliability, safety, service and practically don't have disadvantages. So far as the corporations and users go to the clouds, protection of information and cyber components from unauthorized access, destructive penetrations and viruses is topical and market appealing problem. It is necessary to create a reliable, testable and protected from the penetrations cyberspace infrastructure (virtual PCs and corporate networks), similar to currently available solutions in the real cyber world. Thus, each service being developed in the real world should be placed in the appropriate cloud cell that combines components similar in functionality and utility. The above applies directly to the road service, which has a digital representation in cyberspace for subsequent modeling all processes on the cloud to offer every driver quality conditions of movement, saving time and money. The goal of the project is improving the quality and safety of traffic through creating intelligent road infrastructure, including clouds of traffic monitoring and quasi-optimal motion control in real-time by using RFID-passports of vehicles, which allow minimizing the time and costs of traffic management and creating innovative scientific and technological solutions of social, humanitarian, economic and environmental problems of the world.Публікація Cyber Physical Social Systems – Future of Ukraine(EWDTS, 2014) Hahanov, V.; Gharibi, W.; Kudin, A. P.; Hahanov, I.; Ngene, C.; Yeve, T.; Krulevska, D.; Yerchenko, A.; Mishchenko, A.; Shcherbin, D.; Priymak, A.A fundamental solution of topical problem for economic, social and technological future of Ukraine and the world is proposed. The problem lies in the elimination of corruption through the formation and implementation of the state program «Creation of Cyber Physical Space for Digital Monitoring Technological Processes and Optimal Resource Management in order to Achieve Socially Important Goals». The cyber technology for human-free managing social resources (staff and finance) includes two cloud service: 1) the distribution of government contracts and finance between the structures, undertakings and entities, based on competition of their competence matrices for a given metric; 2) allocation of staff vacancies in scalable social groups based on competition of the competence matrices of applicants for a given metric. The competence metric is a measuring method of the distance between objects or processes based on the use of the parameter vector that defines the space or a competence matrix of a person or social group in real time. A competence matrix is a model of integrated activity and skills of a person or social group at a given metric and time interval. As an alternative solution of the problem it is considered a cyber physical system for managing human and financial resources (Cyber Social Systems - CSS), as a scalable cloud service, available to the social groups, government agencies, private companies and private individuals; it provides lifelong monitoring competencies of corresponding subjects in real time in order to carry out cyber staff management through appropriate career, moral and material incentives according to the results of their constructive activity. The cyber social system is focused on the total destruction of the corruption in the actions of managers at all levels by eliminating the subjectivity in the management of human and financial resources on the basis of the transfer of the official functions to independent cloud cyber service. The system consists of two interacting components: 1) accumulative monitoring of all kinds of human (social group) activity that generates a competence matrix in realtime; 2) the optimal management through career, moral and material incentives of individuals and social formations based on the analysis and rating of the corresponding competence matrices. A cyber system is based on the use of the following technologies: Big Data, Internet of Things, Smart Everything, parallel virtual processors and focused on serving individuals, government agencies and companies. For each subject two unique metrics of competencies are generated: 1) the gold standard of indexes for each category of professional activity; 2) the current competence matrix of the subjects filled in the process of their life, which are ranked by metrical comparison or evaluation of the results of work with standard or better values.Публікація Diagnosis Infrastructure of Software-Hardware Systems(EWDTS, 2011) Yves T.; Hahanov, V.; Alnahhal O.; Maksimov, M.; Shcherbin, D.; Yudin, D.This article describes an infrastructure and technologies for diagnosis. A transactional graph model and method for diagnosis of digital system-on-chip are developed. They are focused to considerable decrease the time of fault detection and memory for storage of diagnosis matrix by means of forming ternary relations in the form of test, monitor, and functional component. The following problems are solved: creation of digital system model in the form of transaction graph and multitree of fault detection tables, as well as ternary matrices for activating functional components in tests, relative to the selected set of monitors; development of a method for analyzing the activation matrix to detect the faults with given depth and synthesizing logic functions for subsequent embedded hardware fault diagnosing.Публікація Transaction Level Model of Embedded Processor for Vector-Logical Analysis(EWDTS, 2012) Adamov, A.; Hahanova, I. V.; Obrizan, V.; Shcherbin, D.Transaction level model of embedded processor for improving the performance of logical relation analysis are proposed. It is based on the hardware implementation of vector operations. There are examples of the model using for the semantics analysis of Russian adjectives. The embedded processor was designed to be part of SoC that will be implemented on FPGA. With the increase in complexity and velocity of the modern digital devices its energy consumption and cost gross also. The division of tasks across multiple cores of the processor that leads to create some parallel systems using a coherent set of specialized calculators would be a trade-off in this situation. These structures could improve the performance of solving the computational problems, and could reduce the power consumption and the hardware implementation cost of the digital systems. The special interest of electronic technology market is the scientific and technical direction of formalizing human mental activity to create the artificial intelligence components. These intelligent tools such as expert systems, image recognition and decisionmaking need creating effective and high-speed engines (multi-processor or specialized embedded processors). A typical example of this domain that requires a specialized processor is the analysis and synthesis of the natural language constructs. At the same time one of the main points of designing the word processor is the hardware implementation of the device that handle synthesis and analysis of the language constructs. Purpose: Development of the transaction level model of the special embedded processor for hardware realization of the vector operations. Objectives: 1. Analysis of publications about the specialized logic processor design [1-4]. 2. Analysis of the syntactic and semantic models of word processing that implement for natural languages [5-6]. 3. Creation of the architecture of the specialized embedded processor that analyze the logical net of the language constructs [6]. 4. The hardware implementation of the transaction level model device that implements the grammatical analysis of the Russian adjectives. The prototype design is used the specialized device that performed grammatical analysis of adjectives end was implemented in the FPGA [6]. The proposed model has more flexibility and can handle any logical net of syntactic and semantic relations. The use of the transaction level modes and design techniques allowed to focus on the order of the data processing and transmission, and reduce unimportant details.