Master Seminar [MS]

Master Seminar on Selected Topics in Wireless Networking

L.079.08002, Summer 2017



Contents

This seminar is being offered as part of the "Master Seminar" series, each issue of which treats current topics in the context of active research domains.

In general, the seminar is focused on two major research areas in wireless networking:

    • Vehicular networks - we are mainly interested in information dissemination techniques and protocol design covering both real-time safety applications as well as large-scale traffic information systems.
    • Sensor networks - we investigate ultra low-power wireless communications as well as robust and scalable data collection and management techniques.

Depending on the specific interest (and the number) of the participants, we organize the seminar either in the classic form, i.e., focusing on a set of research papers outlining some of the most recent findings in the general scope of wireless networking, or in a more hands-on fashion allowing the participants to work on a small project, experimenting with bleeding edge prototypes.

Learning Outcome

In the course of the seminar, attendants will refine their skills of quickly familiarizing themselves with new material, extracting relevant details, and presenting their results orally as well as in writing.

Course details

This master course will be held in English and all the course material is available in English.

  • 4 ECTS (Seminar: 2 SWS)

Instructors

Topics

Guidelines

  • See slides: PDF

Seminar Schedule

Wednesday, 16-18h (c.t.), F1.406

  • April 19, 2017: Topic assignment and scheduling
  • May 10, 2017: Inital talk
  • May 31 + June 14, 2017: Intermediate talk
  • July 19 + 26, 2017: Final talk
  • July 28, 2017: Seminar thesis

Evaluation

Many thanks for the critical and helpful evaluation!

Topics and Reading

  1. Diversity Combining and Cooperative Relaying
    • S.M. Alamouti, "A Simple Transmit Diversity Technique for Wireless Communications," IEEE Journal on Selected Areas in Communications, vol. 16 (8), pp. 1451 -1458, Oct 1998. [DOI, BibTeX, Details...]
    • J.N. Laneman, D.N.C. Tse and G.W. Wornell, "Cooperative Diversity in Wireless Networks: Efficient Protocols and Outage Behavior," IEEE Transactions on Information Theory, vol. 50 (12), pp. 3062-3080, December 2004. [DOI, BibTeX, Details...]
    • A. Bletsas, Hyundong Shin and M.Z. Win, "Cooperative Communications with Outage-Optimal Opportunistic Relaying," IEEE Transactions on Wireless Communications, vol. 6 (9), pp. 3450 -3460, Sep. 2007. [DOI, BibTeX, Details...]
  2. Software Defined Radio Architectures
    • George Sklivanitis, Adam Gannon, Stella N. Batalama and Dimitris A. Pados, "Addressing Next-Generation Wireless Challenges with Commercial Software-Defined Radio Platforms," IEEE Communications Magazine, vol. 54 (1), pp. 59–67, Jan 2016. [DOI, BibTeX, Details...]
    • Joe Mitola, "The Software Radio Architecture," IEEE Communications Magazine, vol. 33 (5), pp. 26-38, May 1995. [DOI, BibTeX, Details...]
  3. Multi-Stage Wake-Up Receiver
    • I. Demirkol, C. Ersoy and E. Onur, "Wake-up receivers for wireless sensor networks: benefits and challenges," IEEE Wireless Communications, vol. 16 (4), pp. 88-96, August 2009. [DOI, BibTeX, Details...]
    • J. Oller, I. Demirkol, J. Casademont, J. Paradells, G. U. Gamm and L. Reindl, "Has Time Come to Switch From Duty-Cycled MAC Protocols to Wake-Up Radio for Wireless Sensor Networks?," IEEE/ACM Transactions on Networking, vol. 24 (2), pp. 674-687, 2015. [DOI, BibTeX, Details...]
    • J. Oller, I. Demirkol, J. Paradells, J. Casademont and W. Heinzelman, "Time-Knocking: A novel addressing mechanism for wake-up receivers," Proceedings of 8th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob 2012), Barcelona, Spain, Oct 2012, pp. 268-275. [DOI, BibTeX, Details...]
  4. Fountain Codes and Forward Error Correction
    • D.J.C. MacKay, "Fountain codes," IEE Proceedings - Communications, vol. 152 (6), pp. 1062-1068(6), December 2005. [DOI, BibTeX, Details...]
    • E. Soijanin, N. Varnica and P. Whiting, "Punctured vs Rateless Codes for Hybrid ARQ," Proceedings of IEEE Information Theory Workshop (ITW 2006), Punta del Este, Uruguay, March 2006, pp. 155-159. [DOI, BibTeX, Details...]
    • Amin Shokrollahi, "Raptor Codes," IEEE Transactions on Information Theory, vol. 52 (6), pp. 2551-2567, June 2006. [DOI, BibTeX, Details...]
  5. Tactile Internet
    • G. P. Fettweis, "The Tactile Internet: Applications and Challenges," IEEE Vehicular Technology Magazine, vol. 9 (1), pp. 64-70, March 2014. [DOI, BibTeX, Details...]
    • T. Levanen, J. Pirskanen and M. Valkama, "Radio interface design for ultra-low latency millimeter-wave communications in 5G Era," Proceedings of IEEE Global Telecommunications Conference (GLOBECOM 2014), Austin, TX, December 2014, pp. 1420-1426. [DOI, BibTeX, Details...]
    • Stefania Santini, Alessandro Salvi, Antonio Saverio Valente, Antonio Pescapè, Michele Segata and Renato Lo Cigno, "A Consensus-based Approach for Platooning with Inter-Vehicular Communications," Proceedings of 34th IEEE Conference on Computer Communications (INFOCOM 2015), Hong Kong, China, April 2015, pp. 1158-1166. [DOI, BibTeX, PDF and Details...]
  6. Visible Light Communication
    • Cen B. Liu, Bahareh Sadeghi and Edward W. Knightly, "Enabling Vehicular Visible Light Communication (V2LC) Networks," Proceedings of 8th ACM International Workshop on Vehicular Internetworking (VANET 2011), Las Vegas, NV, September 2011, pp. 41–50. [DOI, BibTeX, Details...]
    • Boris Tomas, Hsin-Mu Tsai and Mate Boban, "Simulating Vehicular Visible Light Communication: Physical Radio and MAC Modeling," Proceedings of 6th IEEE Vehicular Networking Conference (VNC 2014), Paderborn, Germany, December 2014, pp. 222-225. [DOI, BibTeX, Details...]
    • H. Burchardt, N. Serafimovski, D. Tsonev, S. Videv and H. Haas, "VLC: Beyond point-to-point communication," IEEE Communications Magazine, vol. 52 (7), pp. 98-105, July 2014. [BibTeX, Details...]
  7. Device to Device Communication in Cellular Networks
    • Lei Lei, Zhangdui Zhong, Chuang Lin and Xuemin Shen, "Operator Controlled Device-to-Device Communications in LTE-Advanced Networks," IEEE Wireless Communications, vol. 19 (3), pp. 96-104, June 2012. [DOI, BibTeX, Details...]
    • X. Lin, J. G. Andrews, A. Ghosh and R. Ratasuk, "An overview of 3GPP device-to-device proximity services," IEEE Communications Magazine, vol. 52 (4), pp. 40-48, April 2014. [DOI, BibTeX, Details...]
  8. Clustering in Vehicular Networks
    • Yohei Kanemaru, Satoshi Matsuura, Masatoshi Kakiuchi, Satoru Noguchi, Atsuo Inomata and Kazutoshi Fujikawa, "Vehicle clustering algorithm for sharing information on traffic congestion," Proceedings of 13th International Conference on ITS Telecommunications (ITST 2013), Tampere, Finland, November 2013, pp. 38-43. [DOI, BibTeX, Details...]
    • Stefan Dietzel, Mihail Balanici and Frank Kargl, "Towards Data-similarity-based Clustering for Inter-vehicle Communication," Proceedings of 5th IEEE Vehicular Networking Conference (VNC 2013), Boston, MA, December 2013, pp. 238-241. [DOI, BibTeX, Details...]
    • Hamid Reza Arkian, Reza Ebrahimi Atani, Atefe Pourkhalili and Saman Kamali, "Cluster-based traffic information generalization in Vehicular Ad-hoc Networks," Elsevier Vehicular Communications, vol. 1 (4), pp. 197-207, October 2014. [DOI, BibTeX, Details...]