End-to-end design of mechatronic industrial and automotive computer systems
Abstract
Due to the constant information develop-ment of society and its industrial component, new transport systems and machines have reached a high level of information excellence. Accordingly, there is a new contradiction between the rapid development of tools and methods of informatization of complex objects and systems, the development of transport telematics (internal for cars and other vehicles and external internal transport control systems) and the heterogeneous nature of existing subsystems and components of the transport complex. Of Ukraine. The problem of resolving this contradiction will allow at all levels of transport infrastructure to improve services to residents of cities and regions, improve transport processes, avoid existing negative consequences: traffic disruptions, unsatisfactory condition of roads, irrational use of funds for re-pair, operation and equipment of highways. This will help improve traffic safety, improve the quality of transport services, ensure people's comfort and save cargo. The goal of the study is to create software and hardware for virtual management, its intellectualization based on the use of virtual logis-tics of transportation processes, providing road users, tools of virtual management, a kind of virtual logistics. The purpose of this article is to study the problem of expressing and proving new rules and concepts for providing knowledge and skills to people who want to work in the IT field of transport applications. The sequence of acquiring knowledge and skills of people who have improved their personal professional level in road transport is determined. The idea of computer science as system engineering of successful consecutive creation of computer equip-ment and software of complex systems by combining their computer and software engineering in the field of motor transport is offered. The scope of use of the obtained results is road transport road organizations of Ukraine, residents of cities and regions as individuals or legal entities of users of transport services.
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E. V. Shalobaev. Theoretical and practical problems of mechatronics development, Modern technologies, St. Petersburg, 2001, Р. 46-67. [in Russian]
O. P. Aleksiyev, M. E. Matsiy. Monitoring of transport communications, Automobile and electronics. Modern technologies. 14/18, 2018, P. 44-48. DOI: 10.30977 / VEIT.2018.14.0.44. [in English]
V. О. Alekseev. Information analysis and synthesis of mechatronic systems, Bulletin of KhSADTU. No. 12-13, 2000, P. 199-201. [in Russian]
T. Ishii, I. Shimoyama, H. Inou, et al. Mechatronics, Moscow: Mir, 1988, 318 p. [in Russian]
H. Shiga, S. Mizutan. Introduction to automotive electronics. Moscow: Mir, 1997, 232 p. [in Russian]
Automobile directory Bosh Moscow: Behind the wheel, 1999, 896 p. [in Russian]
A. Zubinsky. Car in a network or a network in a car. Computer review. No. 37, 1998, P. 29-31. [in Russian]
B. A. Danov, E. I. Titov. Electronic equipment of foreign cars. Cabin equipment control systems. Moscow: Transport, 1998, 59 p. [in Russian]
V. O. Aleksiyev. Information analysis and synthesis of mechatronic systems. Bulletin of KSADTU. No. 12-13, 2000, P. 199-201. [in Russian]
M. Matsiy, Ye. Voronova. Interactive Monitoring of Vehicle Traffic. Conditions, Open information and computer integrated technologies. Collection of scientific papers of the National Aerospace University Zhukovsky «KhAI». No. 79, 2018, P. 105-108. [in English]
M. Grover, I. E. Zimmers. CAD and production automation. M .: Mir, 1987, 528 p. [in Russian]
Ed. V. Illingworth and al. Explanatory Dictionary of Computing Systems, Moscow: Mashinostroenie, 1991, 560 p. [in English]
O. B. Matsiy, A. V. Morozov, A. V. Panishev. Recurrent Method to Solve the Assignment. Cybernetics and Systems Analysis. 51(6), 2015, P. 939-946. [in English]
O. B. Matsiy. Permutation-matrix approach to constructing the optimal assignment. Bulletin of the National Technical University «KhPI». Series of «Informatics and Modeling». Kharkiv: NTU «KhPI». № 28 (1353), 2019, P. 69-77. DOI: 10.20998/2411-0558.2019.28.04. [in Ukrainian]
E. Maslov, A. Zubinsky. Hardware and software platform CAD. Computer review. No. 39, 1998, P. 17-20. [in Russian]
A. Zubinsky. Software systems CAD, Computer revie. No. 39, 1998, P. 21-24. [in Russian]
V. A. Steshenko. EDA. The practice of computer-aided design of electronic devices. M.: Publisher Molgacheva S.V. Publishing House «Knowledge», 2002, P. 768. [in Russian]
Y. Potapov. Russian market of CAD of printed circuit boards, Electronic components. No. 5, 2001, P. 58-60. [in Russian]
O. Aleksiyev, D. Klets, V. Khabarov. Development of automotive computer systems based on the virtualization of transportation processes management. Eastern-European Journal of Enterprise Technologies. Vol. 6, N 3 (90), 2017, P. 14-25. [in English]
V. Savchenko, O. Mnushka. High-Sensitive Sensors Based on QCR for Smart Devices, 2020 IEEE XVIth International Conference on the Perspective Technologies and Methods in MEMS Design (MEMSTECH), Lviv. Ukraine, 2020, P. 72-75. DOI: 10.1109/MEMSTECH49584.2020.9109435. [in English]
O. Mnushka. The architecture of a web-based SCADA system. Bulletin of the National Technical University «KhPI». Series of «Informatics and Modeling». Kharkiv: NTU «KhPI». № 24 (1300), 2018, P. 117–128. DOI: 10.20998/2411-0558.2018.24.10. [in Ukrainian]
Алексієв В. О., Волков В. П., В.І. Калмиков В. І. Мехатроніка транспортних засобів та систем: Навчальний посібник. Харків: ХНАДУ, 2004. 176 с.
Шалобаев Е. В. Теоретические и практические проблемы развития мехатроники. Современные технологии. СПб, 2001. C. 46-67.
Aleksiyev O.P., Matsiy M.E. Monitoring of transport communications. Автомобиль и электроника. Современные технологии. 14/18, 2018. С. 44-48. DOI: 10.30977/VEIT.2018.14.0.44.
Алексеев В.О. Информационный анализ и синтез мехатронных систем. Вестник ХГАДТУ. №12-13, 2000. С. 199-201.
Исии Т., Симояма И., Иноуэ Х. и др. Мехатроника. Москва:Мир, 1988. 318 с.
Сига Х., Мидзутани С. Введение в автомобильную электронику. Москва: Мир, 1997. 232 с.
Автомобильный справочник Воsh. Москва: За рулем, 1999. 896 с.
Зубинский А. Автомобиль в сети или сеть в автомобиле. Компьютерное обозрение. №37, 1998. С. 29-31.
Данов Б. А., Титов Е. И. Электронное оборудование иностранных автомобилей. Системы управления оборудованием салона. Москва: Транспорт, 1998. 59 с.
Алексеев В.О. Информационный анализ и синтез мехатронных систем. Вестник ХГАДТУ. №12-13, 2000. С. 199-201.
Matsiy M., Voronova Ye. Interactive Monitoring of Vehicle Traffic. Conditions. Открытые информационные и компьютерные интегрированные технологии. Сборник научных трудов Национального аэрокосмического университета им. Н.Е. Жуковского «ХАИ». № 79, 2018, С. 105-108.
Грувер М., Зиммерс Э. САПР и автоматизация производства. М.: Мир, 1987. 528 с.
Толковый словарь по вычислительным системам / Под ред. В. Иллингуорта и др.: Пер. с англ. А.К. Белоцкого и др.; Под ред. Е.К. Масловского. М.: Машиностроение, 1991. 560 с.
Matsiy O. B., Morozov A. V., Panishev A. V. Recurrent Method to Solve the Assignment Problem. Cybernetics and Systems Analysis. November. 51(6), 2015. P. 939-946.
О.Б. Маций. Перестановочно-матричный подход к построению оптимального назначения. Вестник НТУ «ХПИ». Серия: Информатика и моделирование. – Харьков: НТУ "ХПИ". № 28 (1353), 2019. С. 69 – 77. DOI: 10.20998/2411-0558.2019.28.04.
Маслов Е., Зубинский A. Аппаратно-программная платформа САПР. Компьютерное обозрение. №39, 1998. С. 17-20
Зубинский А. Программные комплексы САПР. Компьютерное обозрение. № 39, 1998. С. 21-24.
Стешенко В. Б. EDA. Практика автоматизированного проектирования радиоэлектронных устройств. М.: Издатель Молгачева С.В. Издательство «Нолидж», 2002. 768 с.
Потапов Ю. Российский рынок САПР печатных плат. Электронные компоненты. №5, 2001. С. 58-60.
Aleksiyev O., Klets D., Khabarov V. Development of automotive computer systems based on the virtualization of transportation processes management. Eastern-European Journal of Enterprise Technologies. Vol. 6. N 3 (90), 2017. P. 14-25.
Savchenko V. and Mnushka O., High-Sensitive Sensors Based on QCR for Smart Devices. 2020 IEEE XVI-th International Conference on the Perspective Technologies and Methods in MEMS Design (MEMSTECH). Lviv. Ukraine, 2020. P. 72-75. DOI: 10.1109/MEMSTECH49584.2020.9109435.
Мнушка О. В. Архітектура веб-орієнтованої SCADA-системи. Вісник НТУ «ХПІ». Серія: Інформатика та моделювання. Харків: НТУ «ХПІ». № 24 (1300), 2018. C. 117-128. DOI: 10.20998/2411-0558.2018.24.10.
