COSC 4931/5931 Embedded Systems
Course Instructor:
Dennis Brylow
Email: brylow at mscs dot mu dot edu
Office: Cudahy 380
Mon/Wed/Fri 12:00pm - 12:50am, CU 137
Mon/Wed 2:00pm - 3:00pm
Mon 8:00pm - 9:00pm
Fri 11:00am - 12:00pm
Readings will be regularly assigned from the textbook.
Lectures will assume that students have already read the assigned
chapters.
This course will be part lecture and part senior seminar. The focus
of the lecture material will be on systems, languages and tools related
to embedded systems. The seminar portion of the course will focus on
current research publications in the area.
Upon completing this course, students will be able to:
Read, understand, and present current research papers in the
area of embedded systems.
Design, implement, and test their own embedded system
components for integration into a larger system.
Document complexities of hardware/software interaction in their
embedded system components in sufficient detail that the work can
be understood and replicated by others.
Student grades will be assigned based on evaluation of the following:
(20%) Presentation and discussion of current, relevant research
papers drawn from the top publication venues in the field;
(30%) Quality of embedded system components produced and
documented;
(10%) Completeness of final written report detailing both the
technical aspects of the constructed components and the lessons
learned throughout the construction process.
(40%) Midterm and Final Exams (20% each) on the textbook
content.
Week |
Topics |
Readings |
Case Study |
Assignments |
01 |
Embedded and Realtime |
Ch 1 |
|
|
02 |
Control and Feedback |
Ch 2 |
|
Control Simulation |
03 |
Embedded VM issues Networking |
Ch 3 |
Embedded VoIP System |
|
04 |
Embedded Hardware |
Ch 4
Garbage Collection |
Helicopter Avionics |
Getting Started |
05 |
Embedded Processors |
Ch 5
Resource Control |
Helicopter POV System |
|
06 |
Embedded Memory |
Ch 6
Embedded Security |
Cypress PSoC Power Controller |
|
07 |
Embedded I/O |
Ch 7 |
|
Memory |
08 |
Busses |
Ch 8 |
|
Midterm Exam |
09 |
Device Drivers Real-time Scheduling |
Ch 9 |
|
Interrupts |
10 |
Operating Systems |
Ch 10 |
|
Proposal |
11 |
Middleware |
Ch 11 |
|
|
12 |
Design |
Ch 12 |
|
|
13 |
Testing |
|
|
|
14 |
Modeling and Analysis |
|
|
|
15 |
Final Projects |
|
|
|
The instructor reserves the right to adjust this schedule as necessary.
Projects will vary according to student interest and available resources.
Some sample projects could include:
New device drivers for the WRT160NL (USB, GPIO, wireless,
network switch, etc.) or the Virtual Qemu platform (NE2000 NIC,
IDE disk interface, frame buffer device, etc.,) the next
generation of Embedded Xinu backend.
Real-time scheduling enhancements and lightweight
synchronization primitives for Embedded Xinu. Will enhance the
suitability of our platform for research and courses on real-time
systems.
Porting Embedded Xinu to a new embedded platform (Arduino,
ARM Cortex etc.)
Novel hardware peripheral integration (motors, actuators,
sensors, sound equipment) for platforms in the Systems Lab,
including MIPS, 68HC12, Z86, Arduino and ARM Stm32 devices.
Note: Projects do not have to center on Xinu, but that is the area where
we are best-equipped to provide in-depth support.
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[Revised Jan 17 16:09 DWB]