Communication Networks 3
Main Lecturer:
Assistant Professor
Prof. Dr.-Ing. Riccardo Bassoli
riccardo.bassoli@tu-dresden.de +49 351 463-35377Teaching Assistants:
Overview
In this course we cover the most recent topics about communication networks such as
- Future communication networks: 6G and the Quantum Internet
- Basics of quantum mechanics
- Quantum communication networks: hardware, software, and applications
- Quantum computing and quantum sensing
- Molecular communications
- Post-Shannon communications
Please enroll in OPAL to receive updates and to get the material related to the lecture. The registration is open till 10.11.2023.
Module Description
- Module Number: ET-12 10 20
- Language of the course: English.
- Optional course, 9th Semester
- Extent: 2 1 0 (V/Ü/P)
Course Schedule
- Starting date: 10th October
- Lectures: Tuesday at 14:50 and Wednesday at 11:10 every odd week
Lecturers
Lecturers
Prof. Bassoli, Prof. Fitzek, members of the chair, and invited experts like Dr. Hopfmann (IFW Dresden), Dr. Nötzel (TU München), Dr. Ferrara (TU München), and Prof. Almudever (Technical University of Valencia).
Textbook
Most of the content of the lectures comes from our recently-published books
Tactile Internet with Human-in-the-Loop
Quantum Communication Networks
Related Publications:
- Riccardo Bassoli, Frank H. P. Fitzek, Emilio Calvanese Strinati: Why do we need 6G?, ITU Journal on Future and Evolving Technologies, 2 (6), 2021.
- Roberto Ferrara, Riccardo Bassoli, Christian Deppe, Frank H. P. Fitzek, Holger Boche: The Computational and Latency Advantage of Quantum Communication Networks, IEEE Communications Magazine, 59 (6), pp. 132-137, 2021.
- Stephen DiAdamo, Janis Nötzel, Simon Sekavčnik, Riccardo Bassoli, Roberto Ferrara, Christian Deppe, Frank H. P. Fitzek, Holger Boche: Integrating Quantum Simulation for Quantum-Enhanced Classical Network Emulation, IEEE Communications Letters, 2021.
- Juan A. Cabrera, Holger Boche, Christian Deppe, Rafael F. Schaefer, Christian Scheunert, and Frank H. P. Fitzek: 6G and the Post-Shannon Theory, Emmanuel Bertin, Noël Crespi, Thomas Magedanz (Ed.): Shaping Future 6G Networks: Needs, Impacts and Technologies, Wiley-IEEE, 2021, ISBN: 978-1119765516.
Date and time | Topic (Lecture / Exercise) | Room |
---|---|---|
10.10.23@ 14:50 | Vision of future communication networks (L) | BAR 213H |
11.10.23@ 11:10 | 6G architecture and technologies (L) | BAR I88U |
17.10.23@ 14:50 | Basics of Quantum Mechanics: quantum circuits (L) | BAR 213H |
24.10.23 @ 14:50 | Basics of Quantum Mechanics (L) | BAR 213H |
25.10.23 @ 11:10 | Basics of Quantum Mechanics (E) | BAR I88U |
31.10.23 @ 14:50 | Bank holiday | |
07.11.23 @ 14:50 | Quantum Error Correction (L) | BAR 213H |
08.11.23 @ 11:10 | The vision of the quantum Internet (L) | BAR I88U |
14.11.23 @ 14:50 | Entanglement and quantum games (L) | BAR 213H |
21.11.23 @ 14:50 | Quantum Key Distribution (L) | BAR 213H |
22.11.23 @ 11:10 | Bank holiday | |
28.11.23 @ 14:50 | Quantum technologies for network synchronisation (L) | BAR 213H |
05.12.23 @ 14:50 | Superconducting qubits (L) | BAR 213H |
06.12.23 @ 11:10 | Quantum sensing (L) | BAR I88U |
12.12.23 @ 14:50 | Practical aspects of entanglement and quantum networks (L) | BAR 213H |
19.12.23 @ 14:50 | Practical aspects of entanglement and quantum networks (L) | BAR 213H |
20.12.23 @ 11:10 | Quantum sources based on quantum dots (L) | BAR I88U |
02.01.24 @ 14:50 | Turn of the year | |
03.01.24 @ 11:10 | Turn of the year | |
09.01.24 @ 14:50 | Software and compilers for quantum computing and the quantum Internet (L) | BAR 213H |
16.01.24 @ 14:50 | Molecular communications (L) | BAR 213H |
17.01.24 @ 11:10 | Molecular communications (E) | BAR I88U |
23.01.24 @ 14:50 | Post-Shannon communications (L) | BAR 213H |
30.01.24 @ 14:50 | Post-Shannon communications (L) | BAR 213H |
31.01.24 @ 11:10 | Post-Shannon communications (L) | BAR I88U |
06.02.24 @ 14:50 | Next generation direct communication: 5G-V2X (L) | BAR 213H |