Search programme

​Use the search function to search amongst programmes at Chalmers. The study programme and the study programme syllabus relating to your studies are generally from the academic year you began your studies.

Syllabus for

Academic year
EDA435 - Advanced internet technology
 
Owner: TDATA
4,0 Credits (ECTS 6)
Grading: TH - Five, Four, Three, Not passed
Level: A
Department: 37 - COMPUTER SCIENCE AND ENGINEERING


Teaching language: English

Course module   Credit distribution   Examination dates
Sp1 Sp2 Sp3 Sp4 No Sp
0101 Examination 4,0 c Grading: TH   4,0 c   29 May 2006 am V,  29 Aug 2006 am V

In programs

TTFYA ENGINEERING PHYSICS, Year 4 (elective)
TITEA SOFTWARE ENGINEERING, Year 4 (elective)
TITEA SOFTWARE ENGINEERING, Year 3 (elective)
TDATA COMPUTER SCIENCE AND ENGINEERING - Computer security, Year 4 (elective)
TDATA COMPUTER SCIENCE AND ENGINEERING, Year 3 (elective)
TDATA COMPUTER SCIENCE AND ENGINEERING - Communications System, Year 4 (elective)
TAUTA AUTOMATION AND MECHATRONICS ENGENEERING, Year 4 (elective)
TELTA ELECTRICAL ENGINEERING, Year 4 (elective)

Examiner:

Professor  Sven Tafvelin



Eligibility:

For single subject courses within Chalmers programmes the same eligibility requirements apply, as to the programme(s) that the course is part of.

Course specific prerequisites

A course in computer communication with a thorough treatment of Internet technology.

Aim

The intention with the course is to get the students to learn how the most advanced features and services in Internet are designed. A positive side effect of the course material is that the students learn to read and study technical and scientific papers.

Goal

After completing the course the student should be able to describe a number of the most advanced facilities and services in Internet and give the rational behind their design.

Content

Since the Internet technology is developing very rapidly the contents of the course need to be flexible and adjust to some extent to the "hot topics" each time the course is given.
Important areas: Mobile IP, IP in radio based environments.
Traffic in large networks, MPLS, traffic engineering.
Quality of Service (QoS), IntServ, DiffServ.
Performance.
Routing problems. Design of networks, reliability, availability, convergence time, replication, diversity.
Security, spamming, denial-of-service attacks, CERTs. Peer-to-peer technology.
Current state-of-the-art issues.

Organisation

The course contains a lecture series followed by a written exam.

Literature

A collection of scientific and technical papers.

Examination

Written exam.


Page manager Published: Mon 28 Nov 2016.