Об этом курсе
4.2
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Рецензии: 65

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Прибл. 8 часа на выполнение

Предполагаемая нагрузка: 4 weeks of study. 2-6 hours/week...

Английский

Субтитры: Английский

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Промежуточный уровень

Прибл. 8 часа на выполнение

Предполагаемая нагрузка: 4 weeks of study. 2-6 hours/week...

Английский

Субтитры: Английский

Программа курса: что вы изучите

Неделя
1
4 ч. на завершение

Introduction to Embedded Hardware

This week will start from the basic information about Embedded Systems. Specifically, you will learn (1) what are embedded systems and where they are applied as well as (2) the main characteristics and challenges of embedded systems. (3) You will discover how embedded systems communicate with the outer world....
6 видео ((всего 50 мин.)), 5 материалов для самостоятельного изучения, 1 тест
6 видео
Introduction to Embedded Systems7мин
Design characteristics and challenges10мин
Input/Output devices7мин
Wire communication, ADC/DAC11мин
Sensors, actuators, interrupts vs. polling9мин
5 материала для самостоятельного изучения
Build your own input/output system with the Arduino!45мин
Build your own ADC using Arduino!30мин
Learn how to use serial communication using the Arduino!30мин
Create a timer for polling using the Arduino!30мин
Quiz 1 assignment (to be done before Quiz 1)10мин
1 практическое упражнение
Introduction to Embedded HW (Graded quiz)30мин
Неделя
2
3 ч. на завершение

Processing Elements of an Embedded System

This week we will go into details of what embedded systems consist of. Specifically you learn about the main blocks of any processing element of embedded systems. We will show you what (1) embedded processors consists of and its main features. You will learn what (3) reconfigurable architectures and FPGAs are, and what kind of (4) ready-made platforms you can use to start working with processing elements....
5 видео ((всего 49 мин.)), 2 материалов для самостоятельного изучения, 1 тест
5 видео
Main features of embedded processors10мин
Use-cases of micro-controller platforms8мин
Reconfigurable platforms, FPGAs10мин
Embedded processors vs. FPGAs10мин
2 материала для самостоятельного изучения
Practical list of comparison of MCU vs FPGA30мин
A comparison between MCU, FPGA, DSP, ASIC from Atmel30мин
1 практическое упражнение
Processing elements (Graded quiz)30мин
Неделя
3
5 ч. на завершение

Overview of operating systems and embedded operating systems

In this week, we start with an overview of operating systems and embedded operating systems for IoT. Primary functionalities of embedded operating systems are discussed. We learn how operating systems work: how memory is managed, how tasks are scheduled, what interrupts are and how they are handled. After this, we deepen our learning with the popular kernels for general and embedded operating systems. Linux (monolithic) kernel, micro kernel and modular kernel are presented. In addition, several popular embedded operating systems for IoT are presented. Concretely, after attending this week, you will able to (1) explain why embedded systems often require an operating system (2) describe how an embedded operating system works such as how memory is managed, how tasks are scheduled and how interrupts are handled. (3) You will be able to differentiate between popular kernels for embedded operating systems. (4) Differentiate between popular embedded operating systems for IoT....
7 видео ((всего 52 мин.)), 4 материалов для самостоятельного изучения, 2 тестов
7 видео
Linux kernel functions and advantages7мин
The microkernel7мин
The modular kernel5мин
Introduction to Contiki5мин
Introduction to TinyOS11мин
Introduction to RIOT OS8мин
4 материала для самостоятельного изучения
In depth reading of the QNX microkernel30мин
The case for using Contiki in sensor networks20мин
TinyOS github & Documentation30мин
RiotOS for IoT20мин
1 практическое упражнение
Embedded Operating Systems (Graded quiz)30мин
Неделя
4
5 ч. на завершение

Contiki OS and Cooja simulation

In this week, we start to explore the Contiki Os in detail. First we discuss about the Contiki system and its kernel architecture. Furthermore, we explore how loadable programs are actually implemented in Contiki. Second, we go through services and libraries in Contiki to see how they are built and when they can be invoked. Third, we discuss communication in Contiki via details of uIp and Rime communication stacks in Contiki. Next, prototheads are discussed to describe how application code is processed in Contiki. Furthermore, APIs of multi-threading is discussed. Last but not least, the Cooja simulator - a simulator for wireless sensor networks based on Contiki is introduced. All steps of installing and applying Cooja for a wireless sensor network applications are presented in detailed via an example application. Concretely, after attending this week, you will able to (1) describe how Contiki system and its kernel architecture are built. (2) Distinguish Contiki services and libraries in terms of how they are built, when they are invoked and why they are used. (3) Describe how communication is implemented and supported in Contiki and what protocols Contiki can support. (4) Explore how application's code is processed in Contiki and important functions of API for multithreading in Contiki (5) use Cooja for simulating wireless sensor networks applications....
8 видео ((всего 63 мин.)), 1 материал для самостоятельного изучения, 3 тестов
8 видео
The Contiki system9мин
Contiki's kernel architecture7мин
Contiki services and libraries9мин
Communication in Contiki I6мин
Communication in Contiki II5мин
Protothread, multithreading and code sizes7мин
Cooja simulation8мин
1 материал для самостоятельного изучения
Get started with Cooja: Step-by-step30мин
1 практическое упражнение
Contiki and Cooja (Graded quiz)30мин
4.2
Рецензии: 65Chevron Right

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Лучшие рецензии

автор: SAMay 25th 2017

Initially it seemed easy and what I already knew... but the week 3 and 4 had alot of new and interesting stuff. It was great eventually... Especially the OS part and some practicals

автор: SAJul 27th 2017

Excellent introduction to Embedded Systems development that could serve as platform for further studies and research. A valuable pedagogy.

Преподаватели

Avatar

Nguyen Gia Tuan

PhD
Department of Information Technology, Faculty of Mathematics and Computer Sciences, University of Turku, Finland

О EIT Digital

EIT Digital is a pan-European organization whose mission is to foster digital technology innovation and entrepreneurial talent for economic growth and quality of life. By linking education, research and business, EIT Digital empowers digital top talents for the future. EIT Digital provides online and blended Innovation and Entrepreneurship education to raise quality, increase diversity and availability of the top-level content provided by 20 leading technical universities around Europe. The universities deliver a unique blend of the best of technical excellence and entrepreneurial skills and mindset to digital engineers and entrepreneurs at all stages of their careers. The academic partners support Coursera’s bold vision to enable anyone, anywhere, to transform their lives by accessing the world’s best learning experience. This means that EIT Digital gradually shares parts of its entrepreneurial and academic education programmes to demonstrate its excellence and make it accessible to a much wider audience. EIT Digital’s online education portfolio can be used as part of blended education settings, in both Master and Doctorate programmes, and for professionals as a way to update their knowledge. EIT Digital offers an online programme in 'Internet of Things through Embedded Systems'. Achieving all certificates of the online courses and the specialization provides an opportunity to enroll in the on campus program and get a double degree. Please visit https://www.eitdigital.eu/eit-digital-academy/ ...

О специализации ''Development of Secure Embedded Systems'

Three people died after the crash landing of an Asiana Airlines aircraft from Seoul, Korea, at San Fransisco International Airport (SFO) on July 6, 2013. The American National Transportation Safety Board (NTSB) established that the crash most probably was caused by the flight crew's (in)actions. Three teenage girls lost their lives; two in the airplane and another was accidentally run over by a firetruck. The human factor is often cause for accidents. NTSB and others report that more than 50 percent of plane crashes is caused by pilot error (and for road accidents it is even 90 perc.) Correctly designed safety and security critical systems can prevent these errors. After following this course successfully, you are able to develop secure embedded systems that are at the core of these safety and security critical systems. You are even challenged to program your own landing guiding system in our capstone project. If you are interested in building secure embedded systems for the benefit of humanity, this specialization is for you! EIT Digital has chosen 3 MOOC topics of industrial interest, namely: 1) Embedded design and hardware, 2) Security in embedded connectivity and 3) Real-Time systems. These MOOCs show what it takes to program Internet-of-Things systems. We focus on tools used in the modern IoT industry, and we push for a practical learn-by-programming approach in which you are exposed to the actual development in an early stage. We hope to see you soon!...
Development of Secure Embedded Systems

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