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Discrete Event Systems (HS 2010)
Over the past few decades the rapid evolution of computing, communication, and information technologies has brought about the proliferation of new dynamic systems. A significant part of
activity in these systems is governed by operational rules designed by humans. The dynamics of these systems are characterized by asynchronous occurrences of discrete events, some controlled
(e.g. hitting a keyboard key, sending a message), some not (e.g. spontaneous failure, packet loss).
The mathematical arsenal centered around differential equations that has been employed in systems engineering to model and study processes governed by the laws of nature is often inadequate or
inappropriate for discrete event systems. The challenge is to develop new modeling frameworks, analysis techniques, design tools, testing methods, and optimization processes for this new
generation of systems.
In this lecture we give an introduction to discrete event systems. We start out the course by studying popular models of discrete event systems, such as automata and Petri nets. In the second
part of the course we analyze discrete event systems. We first examine discrete event systems from an average-case perspective: we model discrete events as stochastic processes, and then apply
Markov chains and queuing theory for an understanding of the typical behavior of a system. In the last part of the course we analyze discrete event systems from a worst-case perspective using the
theory of online algorithms and adversarial queuing.
Course language: German
Lecture by Prof. Roger Wattenhofer and Dr. Kai Lampka Thursday
13.15-15.00 @ ETZ E9 (new room!) .
Exercises by Jasmin Smula and Tobias Langner Thursday 15.15-16.45 @
ETZ E9 (new room!).
Exam Review
After the exam grades have been published in myStudies, you can take a look at your exam until the end of April. To do so, please visit our secretary Tanja Lantz (office ETZ G88) on
Monday, Wednesday, or Friday during office hours.
Exam
The exam is scheduled for Tuesday, 25. January 2011. from 9:00 to 12:00 @ HG E41.
You may use any written material like scripts, your own notes, exercise sheets, books, etc...
All electronical devices (computers, calculators, cell phones, etc...) are not allowed during the exam!
Sample Exam
In order to get a feeling of our exam style, you may have a look at this sample exam and the sample
solutions (please excuse the apparent random choice of language in the exercises/solutions).
Question Session
We will hold a question session in which we (try to) answer your questions about this lecture. The session is on Thursday, 20. January 2011, 9:00 - 11:00 at ETZ E 81.
Please send us your questions ahead of time, at the latest until Wednesday, 19. January 2010 at 14:00 by email to either of the assistants.
Exercise Proceedings
At the beginning of every lecture week, we will publish a new exercise sheet here. This exercise sheet is intended to be solved during the exercise session on Thursday
where two tutors will be available to assist you and to answer potential questions.
You can hand in your solutions for correction after the exercise session on a voluntary basis. This is not mandatory since a Testat is not required to be admitted to the final exam (see
here for further information).
Question Wiki
We try to keep all answers to questions send to us by mail (but not the ones we answer in the exercise sessions, though) publicly available on this Question Wiki such that everyone can profit.
Lecture Notes
The following documents are lecture notes of former students. (We provide no guarantee that these documents are correct!)
You do not need a Testat to attend the final exam. However, if you need a Testat, e.g. because you don't intend to take the final exam, but need an attestation that you attended the
class, you need to hand in at least 80% of the exercises.
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