Instructions for Presenters
- Presentations are individual.
- Prepare a talk of 10 minutes, after each talk there will be room for questions.
- The presentation must include the following:
- A cover slide (title, name, date, Communications Systems Lab Course, IFI, UZH)
- 4-6 content slides.
- A conclusion slide.
- Time is limited: Focus on the core of the topic, do not waste time introducing basics.
Instructions for the Audience
- Each student needs to make at least one question a presentation.
- Each presentation will have a maximum of two questions, due to the limited time
Note:
- Deadline for topic selection is 22.11.2022. The order of presentations will be distributed as soon as all the topics were assigned.
- Topic conflicts: usually a topic can be split in two parts, we will contact participants individually to solve conflicts.
- Send your slides until Monday morning before the presentation as Power Point, Open Office Document or PDF.
- Presentation Date: will happen after the last laboratory session. Time slots will be announced as soon as the topics were assigned.
Remember:
- Active participation in the presentation sessions is part of the requirements to successfully complete this course and receive the ECTS. Thus, students have to be present at both presentation dates, even if they are not giving the talk.
- If students miss a presentation session they have to hand in a written report detailing the presented topic. The report must cover 4 pages written in 2 column IEEE template ( e.g. in LaTex: \documentclass[10pt, conference]{IEEEtran}) handed in by the day of the recap date (08.12).
Topics
To request a topic send an email to the vonderassen AT ifi.uzh.ch. Topics will be assigned according to FCFS. Also, it is possible to suggest topics as long as they are related to any of the content given in the lab and are not conflicting with the list below.
a) Blockchain and Smart Contracts / b) Smart Contracts Applications
- BOOTP and DHCP protocol
- a) Domain Name System (DNS) / b) DNS over HTTPS (DoH)
- a) Software-Defined Networks - Basics and Applications / b) Network Function Virtualization
- Virtual LANs - 802.1q
- Tunneling Protocols
Honeypot - Principles and Applications
- Network QoS Support in Linux
- IPv6 Overview and IPv6 Addressing (IPv6 Header, features, address types, scopes etc.)
- Neighbor Discovery in IPv6 and ICMPv6 (Auto-configuration, Router/Prefix Discovery, Address Resolution, DAD etc.)
Public Key Infrastructure and Certificates
Routing Overview (what is routing, distance vector vs. link state, intra-domain vs. inter-domain etc.)
- Firewalling and NAT in Linux with Iptables
- Multicasting and the IGMP Protocol
Virtual Private Networks
- IPSec
VoIP
Web Application Security
Kubernetes Networking
- Data Center Networks
- IoT Network Protocols
- Ultra-wideband Networks (UWB)
Near-field Communicatoin (NFC)
Long Range Wireless Networks (e.g., LoRa)
5G and 6G
- Network Management
DDoS Attacks and Mitigation
- Web-related Networking Concepts - either (a) HTTP/3 (b) WebRTC
- mDNS and Service Discovery
- You can suggest a topic (send an e-mail to the supervisors to be confirmed)
Assigned Topics
# |
Name |
Topic |
1 |
Songyi Han |
Routing Overview |
2 |
Remy Egloff |
Near-field Communication (NFC) |
3 |
Zahir Wazeer |
5G and 6G |
4 |
Kyrill Hux |
Web Application Security |
5 |
Noah Mamie |
DDoS Attacks and Mitigation |
6 |
Ülkü Karagöz |
Honeypot - Principles and Applications |
7 |
Damaris Schmid |
Kubernetes Networking |
8 |
Stefano Anzolut |
Public Key Infrastructure & Certificates |
9 |
Eugenio De Simone |
VoIP |
10 |
Yuanhao Zhu |
Blockchain and Smart Contracts |
11 |
Pascal Kiechl |
Virtual Private Networks |
12 |
Can Inan |
Onion Routing (Tor) |
13 |
Joel Watter |
LoRa |
14 |
|
|
15 |
|
|