Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
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ITK 4340 | IoT Introduction | төртінші курс | 5 | 150 | 1 | 2 | 2 |
The purpose of the discipline is aimed at studying the principles and methods of functioning of creating autonomous devices, cyberphysical systems and communication infrastructure in general within the framework of the Internet of things. In the discipline, special attention is paid to the design, analysis, development, placement and management of Internet of things Services and services for modern organizations and enterprises in the fields of "smart home", "smart city", "smart production" and others.
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Computer architecture
Narrative, exchange of views, discussion, problem methods.
1 | IoT (Internet of Things) / knowledge of the basics of the Internet of things. |
2 | Knowledge of IoT architecture. |
3 | Drawing / analysis of the digital communication system scheme. |
4 | Know / choose the classification of the IoT technical base. |
5 | Mastering analog / digital signal parameters, measurement methods. |
6 | Digital chip (microcontroller! master the schemes, connection schemes. |
7 | Use in I2C bus / SPI interface / UART/USART interface design. |
8 | Mastering the rules for using digital devices. |
9 | Knowledge of the technical characteristics of the Arduino UNO MK, principle / verification / tuning. |
10 | Knowledge of the technical characteristics, principle / verification / tuning of the ESP MK. |
Haftalık Konu | Evaluation Method | |
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1 | Introduction: basic concepts, principles, areas of application. | |
2 | IoT architecture: sensors, digital communication, LAN, router, cloud, etc. | |
3 | Digital communication system: signal, signal types, signal expression. | |
4 | Digital communication system: composition and structure, quality of communication. | |
5 | Protocols (protocol), interfaces: Inter-Integrated Circuit (I2C) bus. | |
6 | Protocols (protocol), interfaces: SPI protocol, UART / USART transfer interface. | |
7 | IoT technical base: sensors, thermocouples (parametric sensors). | |
8 | IoT technical base: Hall sensors ,Photoelectric Sensors (parametric sensors). | |
9 | IoT technical base: infrared PIR sensors (parametric sensors). | |
10 | IoT technical base: light detection LiDAR, electromechanical MEMS (generator sensors). | |
11 | Microcontroller (MK): composition and structure, scheme. | |
12 | Microcontroller (MK): MK, tuning circuit board used in IoT project. | |
13 | Arduino Uno: composition and structure, principle of operation. | |
14 | Arduino Uno: programming environment Arduino IDE, libraries | |
15 | ESP: programming environment Arduino IDE, libraries. |
PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 | PÇ10 | PÇ11 | PÇ12 |
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Textbook / Material / Recommended Resources | ||
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1 | К.А. Искакова. Вычислительные сети и телекоммуникации. Уч. метод. комплес, 2021. 245 с. | |
2 | С.С. Мауленов, Ж.А. Аймешов. Интернет технологии: МКТУ, 2017. 86 б. | |
3 | Медешова А. Б., Аймичева Г.И., Акимова С.М..Работа с базами данных: Учебное методическое пособие. . Уральск:ЗКГУ им. М.Утемисова 2015.-190 с. | |
4 | Yavorskiy V.V. Information and communication technologies: Tutorial – Almaty: Evero6 20196 – 184 p. | |
5 | Практический хакинг интернета вещей / Ф. Чанцис и др. Пер. с англ Л.Н. Акулич, 2022, 480 с. |