@inproceedings{kaksw-liiel-22,
  author = {Peter Kietzmann and Jose Alamos and Dirk Kutscher and Thomas C. Schmidt and Matthias W{\"a}hlisch},
  title = {{Long-Range ICN for the IoT: Exploring a LoRa System Design}},
  booktitle = {Proc. of 21th IFIP Networking Conference},
  location = {Catania, Italy},
  year = {2022},
  month = {June},
  publisher = {IEEE Press},
  address = {Piscataway, NJ, USA},
  abstract = {This paper presents LoRa-ICN, a comprehensive IoT networking system based on a common long-range communication layer (LoRa) combined with information-centric networking~(ICN) principles. We have replaced the LoRaWAN MAC layer with an IEEE 802.15.4 Deterministic and Synchronous Multi-Channel Extension (DSME). This multifaceted MAC layer allows for different mappings of ICN message semantics, which we explore to enable new LoRa scenarios. We designed LoRa-ICN from the ground-up to improve reliability and security and to reduce dependency on centralized components in LoRa IoT scenarios. We have implemented a feature-complete prototype in a common network simulator to validate our approach. Our results show design trade-offs of different mapping alternatives in terms of robustness and~efficiency.},
  theme = {iot|icn|manet},
  file = {../papers/kaksw-liiel-22.pdf},
  code = {https://github.com/inetrg/IFIP-Networking-LoRa-ICN-2022},
}