18. Apply here. Assessing Data Quality for Autonomous Vehicles, 2024-2025.
17. Remo Scolati, Measuring the responsiveness of WebAssembly in edge network applications, 2023, now at CanaryBit, Sweden, thesis page.
16. Hongyi Luo, Knowledge representation using Natural Language Processing, KTH, 2021, now at Huawei, Munich, thesis page.
15. Pei-Lun Hsu, Data-driven macroscopic traffic prediction from microscopic measurements, now at GetYourGuide, Berlin, KTH, 2021, thesis page.
14. Gustaf Lindstedt, Simulation & Analysis of Peer-to-Peer Network Quality for Measurement Scheduling: Online algorithms, Application for Network QoS Monitoring, KTH, 2019, Software engineer at INVIDI Technologies, thesis page (Co-advised with Liam McNamara).
13. Cosar Ghandeharioon, An evaluation of deep neural network approaches for traffic speed prediction, KTH, 2018, now at Scania, Sweden, thesis page.
12. Sagar Sharma, Accurate Traffic Generation in the CheesePi Network, KTH, 2017, now at Scania, Sweden, thesis page (Co-advised with Robert Olsson).
11. Rebecca Portelli, CheesePi: Delay Characterization through TCP-based Analysis from End-to-End Monitoring, 2016, now at Spotify, Stockholm, Sweden, thesis page (Co-advised with Liam McNamara).
10. Biniam Gebregergs Guulay, CheesePi: Measuring Home Network Performance Using Dedicated Hardware Devices, 2015, now backend developer at ICE Services, Germany, thesis page.
9. Rickard Edström, Internet caching – sizing and placement for dynamic content, Uppsala University, 2015, page.
8. Robert Potys, Implementation and Evaluation of NetInf TP, an Information-centric Transport Protocol, 2013, KTH, now at Ericsson Hungary, thesis page (Co-advised with Björn Grönvall).
7. Noman Ali, Implementation and Evaluation of NetInf TP, an Information-centric Transport Protocol, 2013, KTH, now at Polystar, Australia, thesis page (Co-advised with Björn Grönvall).
6. Daniel Yunda Lozano, Improving vertical handover performance for RTP streams containing voice: Using network parameters to predict future network conditions in order to make a vertical handover decision, 2007, KTH, now at Ericsson, Sweden, thesis page.
5. Viktor Nunes, IEEE 802.11b MAC layer’s influence on VoIP quality parameters: Measurements and Analysis, 2004, KTH, now at Schlumberger, London, paper.
4. Juan Carlos Martin Severiano, IEEE 802.11b MAC layer’s influence on VoIP quality parameters: Measurements and Analysis, 2004, KTH, now at Eurocontrol, Belgium, thesis page.
3. Fengyi Li, Wide Area Measurements of Voice Over IP Quality, 2003, KTH, now at Axway Nordic, Stockholm, paper, thesis.
2. Anders Andersson, Capacity Study of Statistical Multiplexing for IP Telephony, Uppsala University, 2000, now at SaabTech, Sweden, thesis page.
Lex-Hammarskjöld, An analysis of 5G orchestration: Defining the role of software orchestrators in 5G networks, and building a method to compare implementations of 5G orchestrators. School of Electrical Engineering and Computer Science (EECS), thesis (co-supervised with Nicolae Paladi), now a DevOps Engineer at SEB.
1. Zheng Sun, Capacity of IP Telephony, 1999, Linköping University, now at ZTE, Beijing.