M. Sc. Martin Backhaus

Contact

Room:  "Zentralinstitut für Bildung", Building M, Room 608
Phone:  +49 3677 69-4781
E-Mail:  m.backhaus[at]tu-ilmenau.de
GPG-Key (Fingerprint):  20DB 15E9 5E03 F848 1FA3 AFDC 74EF 5153 8525 6A66
 

Research Interests

  • QoS Parameters and Robustness in Overlay Networks
  • Modeling of Network Design Problems (LP/ILP Programming)
  • Routing and Flow in Wireless Mesh Networks
  • Centralized Channel Selection Strategies for Hybrid Multi-Channel Wireless Mesh Networks
 

Teaching

WS 2021/22
 Seminars and teaching videos for the lecture "Programmierung und Algorithmen"
Seminars and teaching videos for the lecture "Netzalgorithmen"
SS 2021
 Teaching videos and online Q&A sessions for the lecture "Telematik 1"
WS 2020/21
 Teaching videos and online Q&A sessions for the lecture "Netzalgorithmen"
SS 2020
 Teaching videos and online Q&A sessions for the lecture "Telematik 1"
WS 2019/20
 Seminars for the lecture "Netzalgorithmen"
SS 2019
 Seminars for the lecture "Telematik 1"
Seminars for the lecture "Programmierparadigmen"
WS 2018/19
 Seminars for the lecture "Netzalgorithmen"
SS 2018
 Seminars for the lecture "Telematik 1"
Seminars for the lecture "Programmierparadigmen"
WS 2017/18
 Seminars for the lecture "Netzalgorithmen"
SS 2017
 Seminars for the lecture "Telematik 1"
Seminars for the lecture "Programmierparadigmen"
WS 2016/17
 Seminars for the lecture "Netzalgorithmen"
SS 2016
 Seminars for the lecture "Telematik 1"
WS 2015/16
 Seminars for the lecture "Netzalgorithmen"
SS 2015
 Seminars for the lecture "Telematik 1"
WS 2013/14
 Seminars for the lecture "Algorithmen und Programmierung für Informatiker" (as a student assistant)
 

Publications

[BRS21]
 Backhaus, Martin; Rossberg, Michael; Schaefer, Guenter: Towards a Realistic Maximum Flow Model in Hybrid Multi-Channel Wireless Mesh Networks, WD, 2021.
[BaSc20]
 Backhaus, Martin; Schaefer, Guenter: Towards the Complexity of the Widest Path Problem in Hybrid Multi-Channel WMNs, WiMob-SPPDT, 2020.
[BTRS20c]
 Backhaus, Martin; Theil, Markus; Rossberg, Michael; Schaefer, Guenter: Robustness and Scalability Improvements for Distance Vector Routing in Large WMNs, WiMob, 2020.
[BTRS20b]
 Backhaus, Martin; Theil, Markus; Rossberg, Michael; Schaefer, Guenter: Improving Network-Assisted Roaming for Controller-Less Wi-Fi, PIMRC, 2020.
[TBRS20]
 Theil, Markus; Backhaus, Martin; Rossberg, Michael; Schaefer, Guenter: Seamless Multimedia Streaming in Controller-Less Wireless Mesh Networks With Mobile Stations, IFIP Networking, 2020.
[BTRS20a]
 Backhaus, Martin; Theil, Markus; Rossberg, Michael; Schaefer, Guenter: Poster: Seamless Client Integration for Fast Roaming in Wireless Mesh Networks, IFIP Networking, 2020.
[BTRS19]
 Backhaus, Martin; Theil, Markus; Rossberg, Michael; Schaefer, Guenter: Robust and Scalable Routing in Wireless Mesh Networks Using Interference-Disjoint Backup Paths, IFIP WMNC, 2019.
[TBRS19]
 Theil, Markus; Backhaus, Martin; Rossberg, Michael; Schaefer, Guenter: Towards a Security Architecture for Hybrid WMNs, ARES 2019.
[BTRS18]
 Backhaus, Martin; Theil, Markus; Rossberg, Michael; Schaefer, Guenter: Towards a Flexible User-Space Architecture for High-Performance IEEE 802.11 Processing, IEEE WiMob, 2018.
[BTRSS18]
 Backhaus, Martin; Theil, Markus; Rossberg, Michael; Schaefer, Guenter; Sukiennik, David: A Comprehensive Framework to Evaluate Wireless Networks in Simulation and Real Systems, IEEE/ACM DS-RT, 2018.
[BaSc17c]
 Backhaus, Martin; Schaefer, Guenter: Worst-Case Attacker Models for Two-Layered Networks Based on the Minimum Overlay Cut, IEEE ISCC, 2017.
[BaSc17b]
 Backhaus, Martin; Schaefer, Guenter: Towards Optimally Resilient Topologies against Optimal Attacks, IEEE/IFIP IM - DISSECT, 2017. Best Paper Award.
[BaSc17a]
 Backhaus, Martin; Schaefer, Guenter: Towards Construction of Efficient and Optimally Resilient VPN Topologies by Exactly Calculating Maximum Disjoint Paths, IEEE ICC, 2017.
[BaSc16]
 Backhaus, Martin; Schaefer, Guenter: Backup Paths for Multiple Demands in Overlay Networks, IEEE GIIS, 2016.
 
 Backhaus, Martin: Online-Berechnung von Graphmetriken zur Überwachung großer Peer-to-Peer-Netzwerke. Unpublished Masters Thesis, 2015.
[GRBS13]
 Grey, Michael; Rossberg, Michael; Backhaus, Martin; Schaefer, Guenter: On Distributed Geolocation by Employing Spring-Mass Systems, IEEE GIIS, 2013.
  Backhaus, Martin: Bestimmung der geografischen Position mit Netzwerkkoordinatensystemen. Unpublished Bachelors Thesis, 2012.