TY - GEN
T1 - An Accuracy Study of Emulation Daemons for IEEE 802.11 Networks
AU - Andre, Jonas
AU - Günther, Stephan
AU - Carle, Georg
N1 - Publisher Copyright:
© 2023 IEEE.
PY - 2023
Y1 - 2023
N2 - Irreproducibility and external influences are common in wireless experiments. In addition, setups with multiple, possibly moving nodes are expensive to create for testing purposes. To address these issues, several wireless emulators and simulators are available. Wireless medium emulators are of particular interest because they allow the use of software designed for real wireless environments without adaptation. In this paper we evaluate the accuracy of the wireless medium emulators hwsim, wmediumd, and yawmd. We compare throughput and round-trip time with results from actual wireless transmissions in a shielded environment. We found large differences between real hardware and these emulators: hwsim throughput results are more than an order of magnitude higher than actual wireless transmissions and measured round-trip times are much lower than expected. wmediumd adds wireless logic such as data rates and media access to the emulation. However, we measured data rates well below one-fifth of the actual data rate available in wireless environments. The RTT under load with wmediumd and yawmd experiments are much higher than in real wireless transmissions and tend to vary widely. yawmd is more accurate in terms of performance but comes with more inaccurate RTTs than wmediumd with TCP traffic.
AB - Irreproducibility and external influences are common in wireless experiments. In addition, setups with multiple, possibly moving nodes are expensive to create for testing purposes. To address these issues, several wireless emulators and simulators are available. Wireless medium emulators are of particular interest because they allow the use of software designed for real wireless environments without adaptation. In this paper we evaluate the accuracy of the wireless medium emulators hwsim, wmediumd, and yawmd. We compare throughput and round-trip time with results from actual wireless transmissions in a shielded environment. We found large differences between real hardware and these emulators: hwsim throughput results are more than an order of magnitude higher than actual wireless transmissions and measured round-trip times are much lower than expected. wmediumd adds wireless logic such as data rates and media access to the emulation. However, we measured data rates well below one-fifth of the actual data rate available in wireless environments. The RTT under load with wmediumd and yawmd experiments are much higher than in real wireless transmissions and tend to vary widely. yawmd is more accurate in terms of performance but comes with more inaccurate RTTs than wmediumd with TCP traffic.
KW - hwsim
KW - reproducible wireless experiments
KW - simulated medium access
KW - wireless emulation
KW - wmediumd
KW - yawmd
UR - http://www.scopus.com/inward/record.url?scp=85182936131&partnerID=8YFLogxK
U2 - 10.1109/LCN58197.2023.10223345
DO - 10.1109/LCN58197.2023.10223345
M3 - Conference contribution
AN - SCOPUS:85182936131
T3 - Proceedings - Conference on Local Computer Networks, LCN
BT - Proceedings of the 48th IEEE Conference on Local Computer Networks , LCN 2023
A2 - Bulut, Eyuphan
A2 - Tschorsch, Florian
A2 - Thilakarathna, Kanchana
PB - IEEE Computer Society
T2 - 48th IEEE Conference on Local Computer Networks , LCN 2023
Y2 - 2 October 2023 through 5 October 2023
ER -