I am working on a project on making it easier to program entire wireless sensor networks:
- ProFUN - A Programming Platform for Future Wireless Sensor Networks
Teaching:
Visit my publication record at here.
DIVA publications
Cross-technology Clear Channel Assessment for Low-Power Wide Area Networks. In Proceedings of The 16th IEEE International Conference on Mobile Ad-Hoc and Smart Systems, pp 199-207, IEEE, 2019. (DOI, External link).
Preliminary Results on LoRaWAN and IEEE 802.15.4-SUN Interference. In SenSys '18: Proceedings of the 16th ACM Conference on Embedded Networked Sensor, pp 430-431, ACM Press, New York, 2018. (DOI).
Investigating interference between LoRa and IEEE 802.15.4g networks. In Proc. 13th International Conference on Wireless and Mobile Computing, Networking and Communications, pp 441-448, IEEE, 2017. (DOI).
Measuring PHY layer interactions between LoRa and IEEE 802.15.4g networks. In 2017 IFIP Networking Conference (IFIP Networking) and Workshops, International Federation for Information Processing, 2017. (DOI).
Enabling design of performance-controlled sensor network applications through task allocation and reallocation. In Proc. 11th International Conference on Distributed Computing in Sensor Systems, pp 248-253, IEEE Computer Society, 2015. (DOI, fulltext:postprint).
Estimating packet delivery ratio for arbitrary packet sizes over wireless links. In IEEE Communications Letters, volume 19, number 4, pp 609-612, 2015. (DOI).
ProFuN TG: A Tool Using Abstract Task Graphs to Facilitate the Development, Deployment and Maintenance of Wireless Sensor Network Applications. In Proc. Poster/Demo Session: 12th European Conference on Wireless Sensor Networks, pp 19-20, 2015.
ProFuN TG: A tool for programming and managing performance-aware sensor network applications. In IEEE 40th Local Computer Networks Conference Workshops (LCN Workshops), pp 751-759, IEEE Computer Society, 2015. (DOI, fulltext:preprint).
ProFuN TG: Programming Sensornets with Task Graphs for Increased Reliability and Energy-Efficiency. In , IEEE Computer Society, 2015. (External link, fulltext:postprint).
Using software-defined networking principles for wireless sensor networks. In Proc. 11th Swedish National Computer Networking Workshop, 2015. (External link, fulltext:print).
A cellular-centric service architecture for machine-to-machine (M2M) communications. In IEEE wireless communications, volume 20, number 5, pp 143-151, IEEE Communications Society, 2013. (DOI).
Comparing wireless flooding protocols using trace-based simulations. In EURASIP Journal on Wireless Communications and Networking, pp 169:1-15, 2013. (DOI, Fulltext, fulltext:print).
An analytical energy consumption model for packet transfer over wireless links. In IEEE Communications Letters, volume 16, number 1, pp 30-33, 2012. (DOI).
An investigation of link quality assessment for mobile multi-hop and multi-rate wireless networks. In Wireless personal communications, volume 65, number 2, pp 405-423, 2012. (DOI).
Designing a flexible and low-cost testbed for Wireless Sensor Networks. In International Journal of Ad Hoc and Ubiquitous Computing, volume 9, number 2, pp 111-121, InderScience Publishers, 2012. (DOI).
Macroprogramming of Wireless Sensor Networks using Task Graphs and Constraint Solving. 8th Swedish National Computer Networking Workshop (SNCNW), 7-8 June, 2012, Stockholm, Sweden, 2012.