Mudanças entre as edições de "STE-EngTel (página)"
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=== Digital-to-Analog Conversion === | === Digital-to-Analog Conversion === | ||
*Read chapter 7 (section 3) of [http://leeseshia.org/ Lee and Seshia, Introduction to Embedded Systems] | *Read chapter 7 (section 3) of [http://leeseshia.org/ Lee and Seshia, Introduction to Embedded Systems] | ||
− | *[[ESTE: Pulse Width Modulation (PWM) | Lab | + | *[[ESTE: Pulse Width Modulation (PWM) | Lab 08: Pulse Width Modulation (PWM)]]; |
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Edição das 09h09min de 27 de novembro de 2015
Embedded Systems - 2015-2
Professor: Arliones Hoeller
- Meetings: Tuesdays, 7:30 am and Fridays 9:40 am at Computing Networks I Lab.
- Office hours
- Tuesdays from 10:35 to 11:30
- Thursdays from 14:25 to 15:20
Grades
Student | Lab Reports | Vision | Specs | Impl | Intr | Final |
---|---|---|---|---|---|---|
121000556-5 | ||||||
121003145-0 | ||||||
121001865-9 | ||||||
121000653-7 | ||||||
121003004-7 | ||||||
122002047-8 |
- Evaluation Checkpoints:
- Lab Reports: set of reports of lab experiments.
- Vision: Build initial version of report containing the Product Vision Document.
- Specs: Extend the report by adding system specification, analysis, and test plan.
- Impl: Extend the report describing system implementation and the test results of the tests of initial modules (according to the test plan).
- Intr: Finalize the report by adding the results of the integration of the modules and related tests.
Lab Experiments
The experiments in this course are based on the project Embedded Systems Experiments for the Telecommunication Engineering Undergraduate Program. See this page for the Experimental Setup. We will use the Arduino Uno board as hardware platform, and will be developing software in C/C++ using the GNU compiler with the avrlibc. We have plenty of Arduinos for use in the classroom, but if you can afford, you are encouraged to buy one for yourself to work on the extra-class assignments. They are available for less than R$50. check MercadoLivre.
Arduino's microcontroller is Atmel's ATMega328P. Download its manual here.
Syllabus
Unit 01 - Get In: Hands on Microcontroller Software |
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Unit 01 - Get In: Hands on Microcontroller SoftwareIntroduction to Embedded Systems
Embedded Systems Development: Design PrinciplesGeneral Porpuse Input Output and External InterruptsSerial Communication
Input/Output Buffers
Analog-to-Digital Conversion
Digital-to-Analog Conversion
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Unit 02 - Get Right: Introduction to Real-Time Systems |
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Unit 02 - Get Right: Introduction to Real-Time SystemsMultitasking
Real-Time Scheduling
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Unit 03 - Get Out: Networked Embedded Systems |
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Unit 03 - Get Out: Networked Embedded SystemsEmbedded Networks and Multiprocessors
Embedded Networks Seminar
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Unit 04 - Get Done: Embedded System Design |
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Unit 04 - Get Done: Embedded System Design |
Homework
Homework 01: UART and Input/Output Buffers - Deadline: Nov. 20th, 2015 |
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For this homework, each student must:
Pseudo-code for the test application: void loop() {
char x = read_from_input_buffer();
delay(TIME);
write_to_output_buffer(x);
}
Students must hand-in the source code used in the experiment and a short report (2 pages max.) consisting of:
This template can be used to build the report.
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Homework 02: Analog and Digital Interchanges - Deadline: Dec. 4th, 2015 |
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Homework 03: Real-Time Operating System - Deadline: Dec. 22nd, 2015 |
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Homework 04: Embedded Networks - Deadline: Feb. 5th, 2016 |
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