Graduate School and Research Center in Digital Sciences

Advanced topics in wireless communications

T Technical Teaching


Hot Topics in Mobile Communications

·         This course presents some recent or emerging  HOT TOPICS within the area of mobile networks.

·         The course is modified from 2014 (and earlier) versions to allow focus on updated set of hot topics and trends in mobile communications.

·         We emphasize emerging techniques to be used in future 5G mobile networks to allow for a significant increase in user quality, and network capacity.

·         The course earns 5 ECTS

·         We cover hot topics for 5G such as "Massive MIMO" , "network cooperation", "interference management", and "device coordination". These topics cover 21 hours.

·         In the other 21hours, external experts (Intel, Huawei, ETSI, etc.) from Industry reveal hot topics seen from the wireless networking  industry.

Teaching and Learning Methods : Lectures, Exercise and  Lab sessions (group of 2 students)

Course Policies : Attendance to Lab session is mandatory (25% of final grade).


Some overview papers will be distributed in class, covering the different hot topics.


Basic knowledge in statistical signal processing and probabilities, and digital communications. Basic MATLAB knowledge for the lab session - No C programming needed.


Our society is evolving towards a society of "massive information" generated by a plethora of devices (cars, tablets, connected things) most of which will have to work wirelessly. How does one design the networks of the future that can face the challenges: How does one optimize the use of spectrum? How does one tackle massive interference?. 5G networks will bring a few new concepts on the table to solve these problems, are are explained in this course.

The course contains a theoretical part (21hrs) and a practical part (21hrs). In the theoretical part you will receive knowledge about key concepts of wireless system design currently being discussed for future application in wireless network, including hot topics like

o    MIMO and Massive MIMO

o    Interference management

o    Network Cooperation

o    Device coordination(e.g. use of wireless-enabled drones for flexible network deployment)

o    Emerging techniques for 5G (Device to Device (D2D) communications, millimeter wave communication, content caching)

You will lean their mathematical modeling and basic techniques.    

In the practical part you will learn from external industrial experts about how wireless standards and products are being designed from industry to capture some of the theoretical concepts.

Learning outcomes:

-Understand why and how 5G will better than any previous system from a communication point of view (spectral efficiency, coverage, access to connected objects)

-How industry standardizes a selected subset of concepts and implements them in wireless products with focus on:

  • How mobile systems are standardized: Understanding the process
  • Internet of things and Machine to machine communications for 5G
  • Latest features in LTE Advanced
  • Full Duplex Radios: potential for 5G
  • Anticipatory Networking: Optimizing the network by exploiting the user  as a measurement device.

Nb hours: 42.00, 3hr exercise session, 3hrs lab session.

Grading Policy:Lab reports (25%), Final Exam (75%.) 2 hour written exam - all documents authorized.

Nb hours: 42.00
Nb hours per week: 3.00