Queueing Theory I.

A tantárgy neve magyarul / Name of the subject in Hungarian: Tömegkiszolgálás I.

Last updated: 2016. december 15.

Budapest University of Technology and Economics
Faculty of Electrical Engineering and Informatics

Electrical Engineering

Software Engineering

PhD course

Course ID Semester Assessment Credit Tantárgyfélév
VITTD069   4/0/0/v 5 1/1
3. Course coordinator and department Dr. Molnár Sándor,
4. Instructors

Dr. Sándor Molnár

Dr. József Bíró

5. Required knowledge

Stochastic processes

Basics of infocommunication networks

8. Synopsis

Traffic characterization and modeling

                Traffic descriptors

                Applications of stochastic processes in modeling

                Study guides for traffic analysis of measured Internet traffic      

Fractal traffic theory

                Self-similarity and long-range dependence

                Heavy-tailed distributions in the Internet

                Fractal traffic models

Traffic management and congestion control

                Traffic management methods

Open-loop and closed-loop control

                TCP performance models

Statistical inequalities, large deviations and their applications to data science

examples in traffic engineering, risk management and insurance

resource estimation based on analyzing rare events

distribution-free estimations of event frequencies

computational models for large systems

Large and complex networks

structural similarities and differences of large complex networks (Internet, airport networks, road network, brain networks, word networks, metabolic networks)

small-world properties, degree distributions and clustering

routing and navigability in large networks

modularity, rich club phenomenon and controllability

Case studies, examples, analytical and numerical investigations to be performed by Wolfram Mathematica

9. Method of instruction lecture
10. Assessment Exam
12. Consultations On demand
13. References, textbooks and resources
  1. L. Kleinrock: Queueing Systems I-II.
  2. D. Cox, P A W Lewis: Statistical Analysis of Series of Events
  3. H. Bruneel: Discrete Time Models for Communication Networks
  4. H. Tijms, A First Course in Stochastic Models
  5. M. Welzl, Network Congestion Control: Managing Internet Traffic
  6. K. Park, W. Willinger, Self-Similar Network Traffic and Performance Evaluation
  7. Selected conference and journal publications from recent literature
14. Required learning hours and assignment
Kontakt óra 
Félévközi készülés órákra 
Felkészülés zárthelyire 
Házi feladat elkészítése 
Kijelölt írásos tananyag elsajátítása 
Vizsgafelkészülés 
Összesen 
15. Syllabus prepared by

Dr. Sándor Molnár

Dr. Bíró József