INDUSTRY 4.0 DIGITAL PRODUCTION ORGANIZATION BASED ON CYBER AND PHYSICAL SYSTEMS AND ONTOLOGIES

Subject of Research. The paper proposes the work organization schemes in the Industry 4.0 instrument making production companies of “smart factory” type equipped with cyber and physical systems. Studies on the production cyber-physiphication are being carried out aimed at the development and implementation of ideas and decisions in the domestic industry, which will help to establish “smart companies” in our country capable of functioning in the conditions of digital economy and possessing new production technologies. Method.We used the work organization methods for item design manufacturing with the cyber and physical systems and ontologies implementation in the conditions of the companies of the future on the basis of the design automation general theory. Main Results. It is shown that the effect of the production companies proposed organization principles implementation in the factories of the future format can boost the Russian Federation industry transfer to the most advanced digital, intellectual production technologies, robotized systems, new materials and designing methods that corresponds to the Russian Federation State Scientific and Technical Policy in the field of instrument making and machine manufacturing. Practical Relevance. The results of this research can be applied in the development of automation design algorithms for instrument making (machine manufacturing) digital production operating in the conditions of the Russian Federation digital economy

Trustworthiness in Mobile Cyber Physical Systems

Computing and communication capabilities are increasingly embedded in diverse objects and structures in the physical environment. They will link the ‘cyberworld’ of computing and communications with the physical world. These applications are called cyber physical systems (CPS). Obviously, the increased involvement of real-world entities leads to a greater demand for trustworthy systems. Hence, we use "system trustworthiness" here, which can guarantee continuous service in the presence of internal errors or external attacks. Mobile CPS (MCPS) is a prominent subcategory of CPS in which the physical component has no permanent location. Mobile Internet devices already provide ubiquitous platforms for building novel MCPS applications. The objective of this Special Issue is to contribute to research in modern/future trustworthy MCPS, including design, modeling, simulation, dependability, and so on. It is imperative to address the issues which are critical to their mobility, report significant advances in the underlying science, and discuss the challenges of development and implementation in various applications of MCPS

Modèles algorithmes et méthodologie pour la conception de systèmes de sécurité physique basés sur des microcontrôleurs protégés des attaques cyber-physiques

Un moyen d'assurer la sécurité de systèmes basés sur des micro-contrôleurs (mCS) est de considérer une approche de génération à partir de spécifications. Malheureusement, les approches existantes souffrent d'inconvénients, et le but de la méthodologie présentée dans cette thèse est de les éviter dans le cas particulier des mCS pour la sécurité physique (mCS-Sec). Les principaux résultats de ce travail sont le développement de modèles, d'algorithmes, et d'une méthodologie originale de création de mCS-Sec, et leur implémentation. L'applicabilité de la méthode a été évaluée sur un système de robot de surveillance d'une zone. Dans ce cas, notre évaluation a montré que l'approche développée satisfaisait toutes les contraintes imposées, tout en offrant certains avantages par rapport aux solutions existantes. Nous pensons que cette approche permettra de réduire le nombre de faiblesses et les problèmes d'architecture dans les mCS, ce qui en réduira la surface d'attaque.One of the possible ways to ensure the security of microcontroller-based systems is the implementation of security by design approach. Unfortunately, existing approaches are not without drawbacks, that is why this thesis is aimed at developing the new one. Moreover, among all possible systems, in this work, only physical security systems were chosen as an area of the application. The main findings of the work are containing original models, algorithms, methodology and software implementation. Their correctness was checked on a system of mobile robots for perimeter monitoring. The evaluation of the developed solution showed that it satisfies all requirements while having advantages over commercial and scientific analogues, which means that the goal of this work was reached. It is assumed that the use of the developed solution will help to reduce the number of weak places and architectural defects in microcontroller-based systems, thereby significantly reducing their attack surface