Journal articles: 'Система "Smart Home"'

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Frankov, D. A. "Cyberphysical lighting systems for «Smart Home»." Connectivity 141, no. 5 (2019): 55–59. http://dx.doi.org/10.31673/2412-9070.2019.055519.

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Ермаков, Сергей Александрович, Кирилл Николаевич Петрухненко, Андрей Александрович Болгов, and Андрей Николаевич Бартенев. "ALGORITHM AND HARDWARE FOR RISK ANALYSIS OF THE SMART HOME AUTOMATED INFORMATION SYSTEM." ИНФОРМАЦИЯ И БЕЗОПАСНОСТЬ, no. 4(-) (December 15, 2021): 501–10. http://dx.doi.org/10.36622/vstu.2021.24.4.002.

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В работе проводится сравнительный анализ существующих методик оценки и регулирования рисков, а также изучается возможность их применения в условиях использования сетей устройств умного дома в контексте их использования при проведении оценки и регулирования рисков. Предлагается оригинальная методика риск-анализа в сетях устройств умного дома анализу, повышающая степень защищенности таких систем, которая основана как на использовании наиболее подходящих процедур из рассмотренных методик, так и на использовании аппарата нечётких чисел. Произведена первоначальная классификация угроз для систем умного дома. Разработана последовательность вычислений для типовых систем и система ввода данных, позволяющая пользователю самостоятельно задавать параметры для модели сети, что обеспечивает наибольшую точность при проведении оценки и регулировании рисков. Предложенная модель реализована при помощи разработанного программного комплекса. The work provides a comparative analysis of existing risk assessment and management techniques, as well as a study of their application in the context of smart home networks in the context of their use in risk assessment and management. We propose our own methodology for assessing and managing risks in networks of smart home devices by analyzing the security of such systems, which is based both on the use of the most suitable items from the methods considered, and on the use of a device of fuzzy numbers. The initial classification of threats for smart home systems has been made. A model of calculations for typical systems and a data input system have been developed, allowing the user to independently set parameters for the network model, which ensures the greatest accuracy in conducting risk assessment and management. The proposed model is implemented using the developed software complex.

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IVANOVA, MARHARYTA, and IRYNA OLEINIKOVA. "ІНТЕЛЕКТУАЛЬНА СИСТЕМА УПРАВЛІННЯ В ОСВІТЛЕННІ ПІШОХІДНИХ ПЕРЕХОДІВ ДЛЯ ПІДВИЩЕННЯ ЕНЕРГОЕФЕКТИВНОСТІ." Technologies and Engineering, no. 3 (January 4, 2022): 9–17. http://dx.doi.org/10.30857/2786-5371.2021.3.1.

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Purpose. Development of the concept of an intelligent control system for implementation in the scheme of pedestrian crossing lighting and design of a street lamp to reduces electricity costs and increases the service life of street lights, using technical devices such as dimmers and special motion sensors.Method. The research methods of theoretical analysis, modeling of appearance and creation of the scheme of intellectual control complex, basic provisions on lighting of pedestrian crossings and design of street lighting, analysis of possibilities of motion sensors and dimming at use in lighting are used.Results. Technologies of application of dimers and various motion sensors in lighting are analyzed and modern technological advantages of their use are allocated. Having identified a problem in the payment for electricity for street lighting for many local budgets, an intelligent control system for pedestrian crossing lighting was developed. The system allows obtaining of significant economic effect, reducing electricity consumption by a maximum of 70%. This saving is achieved by using dimming lamps and special narrow motion sensors, which have a viewing angle of 6 ° horizontally. At rest, the system keeps the lamp power at 50% until the person falls within the range of the sensor and the illumination rises to 100% for the set time. Specially selected sensors and their correct placement allow the system to work only when a person approaches a pedestrian crossing, and to remove accidental unpredictable inclusions. After analyzing the modern street lighting market, the design of a street lamp was created and proposed.Scientific novelty. It is proposed to use an intelligent control system in the lighting of pedestrian crossings, because now it is widely used only as part of the complex "smart home". Application in the scheme of lighting of pedestrian crossings of dimming and special narrowly directed motion sensors with a viewing angle of 6° horizontally that will allow to exclude accidental operation, both from people and cars, and from dogs and cats. A new design of the road lamp has been developed, based on the analyzed provisions on the correct lighting of pedestrian crossings.Practical significance. Lighting of pedestrian crossings is currently a problem in our country, because there are many accidents, and for good lighting you need to spend a lot of money on electricity from local budgets. This intelligent pedestrian crossing lighting control system is specially designed so that the use of electricity can be reduced by 70% and the service life of lamps can be significantly increased, for example by 1.5 times, but a more accurate value can be obtained only after the introduction of the first experimental sample. The use of such a system is possible throughout Ukraine at each crossing, unlike many other projects for lighting road crossings.

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Мельник, О. Н. "Smart home: opportunities and technology." Vestnik of Russian New University. Series «Complex systems: models, analysis, management», no. 4 (January 10, 2022): 115–18. http://dx.doi.org/10.18137/rnu.v9187.21.04.p.115.

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Статья посвящена возможностям системы «умный дом», в частности повышению комфортности жилья благодаря новым технологиям системы, так как комфорт всегда был одним из двигателей прогресса, заставляя человечество серьезно повышать качество жизни, изобретая всё новые инструменты и приспособления, делая ее более благоустроенной. The article is devoted to the capabilities of the “Smart Home”. It also describes the increase in comfort, thanks to the new technology “Smart Home”. After all, comfort has always been one of the engines, forcing humanity to seriously improve the quality of life, to invent more and more new tools and devices.

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Reva, Ivan, Anastasiya Arkhipova, and Roman Samoylenko. "Analysis of threats to information security and data protection in the “Smart house systems”." Digital technology security, no. 4 (December 27, 2021): 20–36. http://dx.doi.org/10.17212/2782-2230-2021-4-20-36.

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The idea of smart homes has been around for several decades and has been described by different authors many times since then. However, there are almost always three aspects in the definitions of the last 20 years. First, home devices must be connected, not only to each other, but also to the Internet. Second, an intelligent way to manage the system is needed, such as a central gateway or smart smartphone apps. Finally, there must be some degree of home automation in the system. A hardware and software complex that meets these requirements can be called a “smart home” system. The system of ensuring the security of the "smart home" is now of great practical importance, which should include measures to protect the IT infrastructure, ensuring the personal safety of residents, ensuring their health, the sanitary condition of the premises, as well as the safety of material assets. It follows from this that the problem of the lack of a thorough study of information security threats and the elaboration of protection of the entire software and hardware complex of the "smart home" system is quite urgent. When solving this problem, an analysis of the main types and characteristics of smart home systems was carried out, and their key vulnerabilities were identified. Also, a study of vulnerabilities in the hardware of smart home systems was carried out; A qualitative assessment of the information security risks of a "smart home" has been carried out and protective measures have been developed to reduce them; A prototype of a fragment of the “smart home” security system has been developed and studied. In an experimental study of threats and vulnerabilities of the developed prototype of a fragment of the "smart home" system, the threat of interception of critical information of the system was studied in detail. Based on the results of the development and research of the Security Inspector, conclusions were drawn about the effectiveness of the use of the intrusion detection module.

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Volvach, A. V., and N. S. Poddubnaya. "Vulnerabilities in Smart Home system." Вестник Пермского университета. Математика. Механика. Информатика, no. 1(52) (2021): 49–52. http://dx.doi.org/10.17072/1993-0550-2021-1-49-52.

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The article considers the existing vulnerabilities in the Smart Home system. The characteristic vulnerabilities in information security of some devices included in the Smart Home system are determined. The methods to improve information security of Smart Home systems are proposed.

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Lutai, L., and A. Kvachov. "РОЗРОБЛЕННЯ SMART-СИСТЕМИ ЖИТТЄЗАБЕЗПЕЧЕННЯ І МОНІТОРИНГУ КІМНАТНИХ РОСЛИН." Open Information and Computer Integrated Technologies, no. 87 (June 30, 2020): 257–73. http://dx.doi.org/10.32620/oikit.2020.87.15.

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A robotic system is a microcontroller with a set of sensors that register external changes (humidity, lighting, temperature, etc.), a data exchange module, and an execution mechanism that begins to act when the user sends a command to the microcontroller from an Android device. Creating robotic systems is one of the main tasks of industrial automation, which is closely related to the IoT (Internet of Things) technology. There are a lot of variations in the development of robotic systems in synergy with IoT: "Smart Home", driverless car, cleaning robot, etc. In most cases, a smart home is a home automation system – a system that helps save time on managing all other engineering and entertainment devices. And the more devices, the more necessary it is to use automation systems. For a large number of IoT systems, a mobile phone or tablet based on the Android or iOS operating system is often used as a control device. This is due to the mobility in managing and monitoring messages through a handheld device. The purpose of this article is to develop a Smart system for life support and monitoring the condition of indoor plants.The Smart system being developed provides for the creation of not only a plant life support system, but also the creation of a mobile application for managing and monitoring plant life support. In the course of writing the article, the existing automated control systems were investigated and a block diagram of the Smart system was constructed, taking into account its interaction with the mobile application. The article uses a decentralized automation system in which the main elements are the ESP8266 microcontroller (as a transmitter) and the Atmega328 microcontroller (as a data processing element). An application for a mobile device that acts as a remote control has also been developed. Within the framework of the article, an electrical schematic diagram of the Smart system has been developed. The article also provides detailed instructions and recommendations for both hardware and software parts.

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Мельник, О. Н. "Smart home: comparison of wired and wireless technologie." Vestnik of Russian New University. Series «Complex systems: models, analysis, management», no. 1 (March 23, 2022): 119–22. http://dx.doi.org/10.18137/rnu.v9187.22.01.p.119.

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Рассматриваются различия выбора способа связи между элементами системы «Умный дом», которая может быть проводной или беспроводной, а также способы доставки сигнала и основные протоколы беспроводной связи. This article examines the choice of the method of communication between the elements of the “Smart House” system. It can be wired or wireless. Methods of signal delivery and wireless communication protocols are also analyzed.

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Hlybovets, Andii M., and Vitalii O. Mogolivskiy. "Analysing of Systems for Maintaining a Smart Home." Control systems and computers, no. 5 (283) (November 2019): 30–37. http://dx.doi.org/10.15407/csc.2019.05.030.

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Кунавин, Валерий Евгеньевич, Сергей Александрович Ермаков, Андрей Александрович Болгов, and Сергей Николаевия Лихобабин. "ASSESSMENT AND REGULATION OF THE RISKS OF THE REALIZATION OF THREATS OF UNAUTHORIZED ACCESS TO THE DATA OF THE AUTOMATED INFORMATION SYSTEM "SMART HOME": METHODOLOGICAL BASE AND SOFTWARE." ИНФОРМАЦИЯ И БЕЗОПАСНОСТЬ, no. 4(-) (December 15, 2021): 511–20. http://dx.doi.org/10.36622/vstu.2021.24.4.003.

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В работе проводится разработка методического подхода и программного обеспечения оценки и регулирования рисков реализации угроз несанкционированного доступа к данным автоматизированной информационной системы «Умный дом». Предлагается оригинальный подход к анализу защищенности таких систем, основанный на применении аппарата теории рисков и нечёткой логики. Произведен анализ существующих подходов к обеспечению безопасности информационных систем. Построена методическая база оценки рисков и рекомендации по их регулированию. Предложенный методический подход реализован с помощью имитационного программного комплекса. Предложена методика регулирования рисков, основанная на анализе состояния межмашинного взаимодействия внутри сети с течением времени. Произведена оценка эффективности методического подхода к оценке и управлению рисками. The work contains a methodological approach and software for assessing and regulating the risks of the implementation of threats of unauthorized access to the data of the automated information system "Smart House". An original approach to the analysis of the security of such systems is proposed, based on the use of the theory of risks and fuzzy logic. The analysis of existing approaches to ensuring the security of information systems has been carried out. A methodological basis for assessing risks and recommendations for their regulation has been built. The proposed methodological approach is implemented using a simulation software package. A risk management methodology based on the analysis of the state of machine-to-machine interaction within the network over time is proposed. The effectiveness of the methodological approach to risk assessment and management was assessed.

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Bondareva, A. D., E. N. Sozinova, and K. A. Fayazov. "MODEL OF PROTECTED INFORMATION IN THE SYSTEMS OF THE TYPE "SMART HOME"." Scientific and Technical Volga region Bulletin 7, no. 6 (December 2017): 173–75. http://dx.doi.org/10.24153/2079-5920-2017-7-6-173-175.

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BOBROVNIKOVA, K., and E. TOVSTUKHA. "METHODS FOR ENERGY EFFICIENCY AND ENERGY SAVING IN THE SMART HOME SYSTEM." Computer Systems and Information Technologies 1, no. 1 (September 2, 2020): 54–59. http://dx.doi.org/10.31891/csit-2020-1-7.

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Today, the efficient use of energy resources is one of the most important tasks. The fastest growing sector of energy consumption in the world is electricity, which is projected to grow by 56% by 2035, and in developed countries almost all the growth is due to the generation and consumption of electricity and heat. Further growth of energy consumption by the population is also expected. At the same time, almost a third of the total energy consumption is made up of certain losses, ie energy is consumed for other purposes. Against the background of global growth in energy consumption, the rate of further accumulation of CO2 emissions will increase. That is why the European Union, United Nations bodies, international financial organizations and the International Energy Agency give priority to energy efficiency issues. To this end, a set of mechanisms and practical tools for economic stimulation of measures to implement modern energy-saving technologies is used at the international level. Smart home is a system for managing the basic life support processes of both small systems (commercial, office premises, apartments, cottages) and large automated complexes (commercial and industrial complexes). One of the important tasks to be solved by the concept of a modern smart home is the problem of energy efficiency and energy saving. Effective control of heating, ventilation, air conditioning, more efficient use of traditional appliances and the introduction of energy-efficient equipment in the building are important to ensure productive, healthy and safe work and life of residents, play an important role in preventing energy loss and reduce impact on the environment. In addition, improving the efficiency of energy management is the only approach to ensuring the energy efficiency and energy saving of many existing buildings that cannot be upgraded according to the requirements of modern construction technologies. The paper presents an overview of modern methods and technologies aimed at ensuring energy efficiency and energy saving in the smart home system.

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MARTYNIUK, O. S. "PROJECT INNOVATIONS IN THE SYSTEM OF STUDENT’S AND PUPIL’S STEM-ORIENTED LEARNING." Scientific papers of Berdiansk State Pedagogical University Series Pedagogical sciences 1, no. 3 (December 30, 2021): 90–97. http://dx.doi.org/10.31494/2412-9208-2021-1-3-90-97.

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The concept of STEM implementation in the educational sector of Ukraine as a means of forming and developing skills of research and engineering, invention, entrepreneurship, early professional self-determination, popularization of scientific, technical and engineering professions is analyzed. One of the indicators of readiness of future specialists for innovation is their ability to create innovative projects independently. Therefore, the problem of development and use of innovative STEM-projects to ensure the education of scientific and applied (professional) direction is relevant. The purpose of the article is to outline the concept of innovative activity of students and pupils, to determine the criteria of efficiency of project activity in the system of STEM-oriented learning on the example of the developed STEM-project. As an example, we consider the STEM project, which can be performed on the basis of a modular set of “Smart Home”. The purpose of the technological STEM-project “Smart Home” is the interest of pupils and students in innovative technologies, natural and mathematical disciplines, development of critical thinking, ability to apply scientific and technical information, formation of competence approach and professional mobility, motivation to consciously choose a future profession. The modular set implements the current functions of the “Smart Home” system and is a model of a two-storey building with a garage. The set is developed on the basis of block-modular technology. Each design is an independent technical solution implemented using microcontroller platforms, sensors, servos and other components. Pupils or students under the guidance of the teacher independently assemble the structure, guided by the methodological materials and technical characteristics of the project. In the process of work, they process theoretical material, install electronic components, study technologies for programming microcontroller platforms, perform full configuration of all components and mechanisms of the structure. Key words: STEM-direction, innovation, programming, design activities, platforms Arduino.

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Fedko, A. O., I. Ya Zelenova, and M. Yu Tiahunova. "DEVELOPMENT AND MODELING OF A SMART HOME SYSTEM WITH INCREASED RELIABILITY BASED ON ARDUINO." Problems of Modeling and Design Automatization 21, no. 1 (2019): 23–32. http://dx.doi.org/10.31474/2074-7888-2019-1-23-32.

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Воскобойников, Михаил Леонтьевич, Роман Константинович Федоров, and Геннадий Михайлович Ружников. "Automatic definition of web service call zones based on the classification of context of the mobile device." Вычислительные технологии, no. 2 (June 22, 2021): 88–97. http://dx.doi.org/10.25743/ict.2021.26.2.007.

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Предложен метод автоматизации активации устройств Интернета вещей на основе классификации геопозиции мобильного устройства. В отличие от других методов пользователь обучает систему активации устройств с помощью примеров и контрпримеров, что значительно снижает требования к квалификации пользователя. Проведено тестирование метода на таких двух устройствах, как шлагбаум и электромеханический замок двери. Полученные результаты тестирования позволяют судить о работоспособности метода и возможности его использования в системах умного дома и города. Most IoT devices provide an application programming interface such as web service that allows controlling these IoT devices over Internet using a mobile phone. Activation of IoT devices is performed according to the status of user behavior. Both user behavior and activation of IoT devices are periodical. An activation of IoT device is often related with a user geolocation which can be defined by sensors of the mobile device. A method for automated activation of IoT devices based on classification of geolocation of mobile device is proposed. The method implements a supervised learning that simplifies automate activation of IoT devices for the end users. Existing methods demand appropriate end user qualification and require long time to automate activation. For indoor geolocation of the mobile device information from Wi-Fi access points and geolocation GPS sensor is utilized. Data of Wi-Fi and GPS sensors is used to form context of a mobile device. Based on context examples of invoking/not invoking web services the spatial areas are formed. When the mobile device context is within the web service invocation area, the web service is invoked and the associated IoT device is activated. To implement the method, an Android application was developed. The method was tested on a training set that contained 100 training examples of calling two web services: opening an electromechanical door lock and opening a barrier. As a result of testing, the accuracy of classifying the context of a mobile device was 98 percent. The results obtained can be used in the development of smart home and smart city systems.

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Hasanova, S. L., B. V. Belyaev, and R. R. Sharipova. "DEVELOPMENT OF A SECURITY SYSTEM WITH SENDING NOTIFICATIONS SMART HOME ON THE ARDUINO MICROCOMPUTER PLATFORM." Современные наукоемкие технологии (Modern High Technologies) 2, no. 12 2020 (2020): 324–28. http://dx.doi.org/10.17513/snt.38450.

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Kuznetsov, D. I., L. S. Riabchyna, N. A. Motsuk, and O. V. Gradovyi. "The structure of a mobile robot for people with disabilities as a part of the Smart Home system." Mining Journal of Kryvyi Rih National University, no. 102 (2017): 96–100. http://dx.doi.org/10.31721/2306-5435-2017-1-102-96-100.

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Еременко, Vladimir Eremenko, Лякишев, and Aleksandr Lyakishev. "OPTIMIZATION OF THE PROCESS INFORMATION EXCHANGE IN THE ACSB SAFETY AND MONITORING SYSTEM ON THE EXAMPLE OF SMART HOME TECHNOLOGY." Bulletin of Belgorod State Technological University named after. V. G. Shukhov 2, no. 7 (June 13, 2017): 146–49. http://dx.doi.org/10.12737/article_5940f01a8d60b0.87715921.

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Polivyanchuk, A., Y. Kovalenko, S. Romanenko, and R. Semenenko. "COMPREHENSIVE ASSESSMENT OF THE ECONOMIC AND ENVIRONMENTAL-ENERGY EFFICIENCY OF THE USE OF "SMART HOME" TECHNOLOGIES IN HEATING SYSTEMS OF EDUCATIONAL INSTITUTIONS." Municipal economy of cities 2, no. 148 (2019): 53–57. http://dx.doi.org/10.33042/2522-1809-2019-2-148-53-57.

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Хаджиева, Л. К., М. Р. Хаджиев, and И. У. Хашумов. "PROSPECTS FOR THE IMPLEMENTATION OF 5G TECHNOLOGY AND INTERACTION WITH THE “SMART HOUSE” SYSTEM." Вестник ГГНТУ. Технические науки, no. 4(26) (December 28, 2021): 21–32. http://dx.doi.org/10.34708/gstou.2021.32.99.003.

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В статье рассматриваются вопросы, связанные с внедрением и реализацией технологии 5G, а также взаимодействие 5G с системой «Умный дом». Пятое поколение сетей, является следующим за 4G и 3G, и, как и при переходе от 3G к 4G, мы получаем гораздо более высокие скорости, чем на любом из технологий, которые были раньше. Теоретически максимальная скорость загрузки, которую ожидают от 5G, равна 10-50 Гбит/с, но мы еще не достигли этого уровня, по имеющимся данным, пиковая скорость загрузки уже достигла 753 Мбит / с, а в некоторых сетях утверждается, что скорости более 1 Гбит/с уже наблюдаются.Следующее поколение телекоммуникационных сетей (пятое поколение или 5G) начало выходить на рынок в конце 2018 года и будет продолжать расширяться по всему миру.Ожидается, что помимо повышения скорости эта технология откроет огромную экосистему 5G IoT (Интернет вещей), в которой сети могут обслуживать коммуникационные потребности миллиардов подключенных устройств с правильным компромиссом между скоростью, задержкой и стоимостью. The article discusses issues related to the introduction and implementation of 5G technology, as well as the interaction of 5G with the “Smart Home” system. The fifth generation of networks is next to 4G and 3G, and as with the transition from 3G to 4G, we are getting much faster speeds than any of the technologies that came before. Theoretically, the maximum download speed expected from 5G is 10-50 Gbps, but we have not yet reached this level, according to the available data, the peak download speed has already reached 753 Mbps, and in some networks it is claimed to be over 1 Gbps.The next generation of telecommunications networks (fifth generation or 5G) began to hit the market at the end of 2018 and will continue to expand around the world.In addition to increasing speed, this technology is expected to open up a huge 5G IoT (Internet of Things) ecosystem in which networks can serve the communication needs of billions of connected devices with the right trade-off between speed, latency and cost.

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Федосов, С. В., А. А. Лазарев, М. В. Торопова, and В. Г. Маличенко. "EQUATIONS FOR THE OPERATING TEMPERATURE OF THERMOSENSITIVE ELEMENTS OF FIRE DETECTORS EMBEDDED IN A CONCRETE BLOCK." НАУЧНЫЙ ЖУРНАЛ СТРОИТЕЛЬСТВА И АРХИТЕКТУРЫ, no. 4(60) (December 29, 2020): 35–42. http://dx.doi.org/10.36622/vstu.2020.60.4.003.

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Постановка задачи. Решение проблемы придания строительной конструкции свойств, позволяющих обнаруживать пожары вне зданий, является одним из направлений предупреждения перехода огня с одного здания на другое. Встраивание средств пожарной автоматики в строительные изделия должно осуществляться после проведения соответствующих расчетов. Отсутствие выражения, позволяющего определить температуру термочувствительного элемента пожарного извещателя, встроенного в бетонный блок, вынуждает проводить детальные расчеты. Вместе с тем, необходимо исследовать влияние расстояния до объекта возможного пожара, размера термочувствительного элемента, теплового потока на время обнаружения пожара строительным изделием, входящим в систему «умный дом». Результаты. В процессе измерения температуры термочувствительных элементов пожарных извещателей, встроенных в бетонные блоки, получены эмпирические данные, позволяющие описать на ранней стадии пожара лучистый теплообмен, характерный для открытого горения вне помещений. Выводы. Получены приближенные уравнения, которые позволяют с достаточной точностью определить температуру и время срабатывания пожарного извещателя, встроенного в бетонный блок, на начальной стадии пожара в зависимости от расстояния до объекта пожара (источника излучения), теплового потока, размера термочувствительного элемента. Statement of the problem. Solving the problem of giving the properties of a building structure to detect fires outside buildings is one of the ways to prevent the transition of fire from one building to another. Embedding of fire automation equipment in construction products should be carried out after making the appropriate calculations. The absence of an expression for determining the temperature of the heat-sensitive element of a fire detector inside a concrete block requires detailed calculations. At the same time, it is necessary to study the influence of the distance to the object of a possible fire, the size of the heat-sensitive element, and the heat flow on the time of fire detection by a construction product included in the smart home system. Results. As part of the temperature measurement of heat-sensitive elements of fire detectors inside the concrete block, empirical data were obtained. This information allows us to describe the radiant heat exchange at an early stage of a fire. This is typical of open burning outdoors. Conclusions. Approximate equations are obtained for determining the temperature and response time of a fire detector inside a concrete block at the initial stage of a fire, depending on the distance to the fire object (radiation source), heat flow, and the size of the thermosensitive element. These values can be determined with sufficient accuracy.

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Влах-Вигриновська, Галина, Олег Іванюк, Мішель Вигриновський, and Назар Малиновський. "Розроблення домашньої системи безпеки на основі технологій інтернету речей." Automation, Measuring and Management / Автоматика, вимірювання та керування, 2020, 78–86. http://dx.doi.org/10.23939/amm2020.01.078.

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This article proposes a cost effective IoT smart home security platform that delivers data in the cloud for applications. The smart security system includes a network for sensing home monitoring devices via wireless ISM communication, a home security system control controller with an Internet connection using a Wifi connection, and a backup method of notifying the user is implemented by SMS message via GSM cellular network, cloud server and applications for mobile phones on the Android operating system. The developed application combines the application of a cloud server, client sensors and a database. It also clarified the hardware and software implementation of the IoT-based home security system and their relative functions.

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Slivin, A. M., and A. P. Ivanov. "Analysis of vulnerabilities in Smart Home system." Engineering and Technology 3, no. 2 (2018). http://dx.doi.org/10.21685/2587-7704-2018-3-2-3.

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Мальцагов, Х. Х., and Л. К. Хаджиева. "ANALYSIS OF THE TECHNOLOGY “INTERNET OF THINGS” (IOT) AND ITS ROLE IN THE “SMART HOUSE” PROJECT." Вестник ГГНТУ. Технические науки, no. 4(18) (November 30, 2019). http://dx.doi.org/10.34708/gstou.2019.18.4.003.

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В данной публикации рассмотрена технология интернет вещей и ее роль в проекте Умный дом и в системе безопасности, которую они могут предоставить, а также о ее актуальности в современном мире. Количество и качество возможностей умного дома зависит только от желания и финансовых возможностей владельца. Кто-то может устанавливать всевозможные датчики температуры, газа, движения, автоматическое освещение и шторы, кто-то может ограничиться умным чайником. Самая важная и актуальная для человека функция умного дома это безопасность, которую он может обеспечить, для этого могут, например, использоваться электронные замки, которые открываются со смартфона владельца или по паролю, камеры видеонаблюдения, датчики движения. Все это возможно благодаря технологии интернет вещей, которая связывает все устройства в доме в единую сеть. This publication discusses the technology of the Internet of things and its role in the Smart Home project, and in the security system that they can provide, as well as its relevance in the modern world. The quantity and quality of the capabilities of a smart home depends only on the desire and financial capabilities of the owner. Someone can install all kinds of sensors for temperature, gas, movement, automatic lighting and curtains, someone can be limited to a smart kettle. The most important and relevant function of a smart home for a person is the security that it can provide, for this, for example, electronic locks can be used that open from the owners smartphone or password, video surveillance cameras, motion sensors. All this is possible thanks to the Internet of Things technology, which connects all the devices in the house into a single network.

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Ovchynnik, S. O., O. A. Laptіev, S. A. Zozulya, and A. M. Pravdyvyy. "A method of protecting the information of the "smart home" system on the basis of a new data exchange protocol." Modern information security, August 28, 2020. http://dx.doi.org/10.31673/2409-7292.2020.031421.

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The analysis of security problems of information exchange between the client and the "Smart Home" system is carried out. The priorities of information protection at the stage of information transfer are determined. The analysis of the proposed new wireless network standard Thread is carried out. Thread uses IPv6 and is built on the IEEE 802.15.4 standard, and its main advantage is security. At the same time, there can be up to 250 devices in the network, which are protected by encryption of the banking system level. But this is not enough to ensure the integrity of information. The use of a new encryption algorithm based on the current encryption algorithm based on the blockchain algorithm is proposed, thanks to the use of dynamically changing nonlinear bijective transformation (S-blocks) allows to avoid significant information security problems. This algorithm is used to ensure confidentiality (security during transmission), integrity (security during storage and modification only for authorized users) and authenticity (authenticity of the message source). And provides reliable information protection.

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Journal articles on the topic 'Система "Smart Home"'

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