1 / 15

Frame error model in rural Wi-Fi networks

CNR - ISTI - Frame error model in rural Wi-Fi networks. Frame error model in rural Wi-Fi networks. Paolo Barsocchi Gabriele Oligeri Francesco Potortì ISTI C.N.R. – Pisa Research Area Via G. Moruzzi 1, San Cataldo, 56124 Pisa (Italy) Phone: +39-050-315-2053/3070, Fax: +39-050-313-8091

prue
Télécharger la présentation

Frame error model in rural Wi-Fi networks

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. CNR - ISTI - Frame error model in rural Wi-Fi networks Frame error model in rural Wi-Fi networks Paolo Barsocchi Gabriele Oligeri Francesco Potortì ISTI C.N.R. – Pisa Research Area Via G. Moruzzi 1, San Cataldo, 56124 Pisa (Italy) Phone: +39-050-315-2053/3070, Fax: +39-050-313-8091 Email: {paolo.barsocchi, gabriele.oligeri, Potorti}@isti.cnr.it

  2. CNR - ISTI - Frame error model in rural Wi-Fi networks Related work • Other measurement campaigns have usually been conducted on : • complex network setups hiding the relationship between frame error probability and transmitter-receiver distance • simple scenarios where ARQ algorithm was always used, hiding the underlying frame error process details • Commonly used frame loss models for simulations (ns-2) assume a simple double regression model. This model is widely used, but we do not know of any measurements that try to validate it.

  3. CNR - ISTI - Frame error model in rural Wi-Fi networks The goal • Starting from frame-level measurements done in outdoor environment by using IEEE 802.11 channel we: • Study the relationship between power level and distance • Investigate the frame error process. • Examine the relationship between receive power level and frame error process.

  4. CNR - ISTI - Frame error model in rural Wi-Fi networks Wi-Fi link characteristics • Nominal rate of 2, 5.5 and 11 Mb/s, for a unidirectional flow of 500, 1000 and 1500-data byte packets. • Long preambles, no fragmentation, RTS/CTS disabled. • Latency produced by the driver and the hardware around 1 ms. • MAC retransmissions limited to 0.

  5. . T . R CNR - ISTI - Frame error model in rural Wi-Fi networks Measurements environment • The rural environment was a wide uncultivated field with an unobstructed line of sight, far from buildings, cell phone antennas and power lines. • Transmitter and Receiver positions in our experiments

  6. CNR - ISTI - Frame error model in rural Wi-Fi networks Traffic type • CBR flow • frame transmitted every 5 ms • fixed 2, 5.5, and 11 Mb/s rate with fragmentation and retransmission disabled • The receiver checks a sequence number inside the frames and creates a trace of the lost ones. • 200000 frames transmitted for each measure. • We performed several tens of measures in three different locations.

  7. CNR - ISTI - Frame error model in rural Wi-Fi networks Propagation model • Differences between propagation models for predicting the power level at the receiver • two-ray propagation model (2RM) • double regression approximation • GSM frequency: the maximum error is 14 dB. • Wi-Fi frequency: the maximum error is 24dB.

  8. CNR - ISTI - Frame error model in rural Wi-Fi networks Propagation model • We computed the measured signal level in dB by fitting the observed RSSI values with a -40dB/dec slope for distances greater than the breakpoint • The unit value of the RSSI level scale provided by our cards equals 0.6 dB

  9. CNR - ISTI - Frame error model in rural Wi-Fi networks Propagation model • Nodes at 1 m from the ground, 2RM predicts a dip at 16m where: • The received power = power received at 160m • The error with respect to the double regression model is about 24dB.

  10. CNR - ISTI - Frame error model in rural Wi-Fi networks Frame error process • Statistical tests aimed at characterising the frame error process in the time domain. • We evaluated the stationarity of the errored frame sequences using the Mann-Kendall test on the traces split into equal length segments. • We found that, at 0.05 significance level, all the traces pass the stationarity test with a segment length of 1000 samples corresponding to 5 seconds. • We considered the autocorrelation of the samples, the burst and gap length distribution, the coefficient of variation of burst and gap lengths and found that all are consistent with a Bernoulli process.

  11. CNR - ISTI - Frame error model in rural Wi-Fi networks Frame error process • We tested this conclusion by using a chi-square goodness-of-fit test to test the null hypothesis that the burst and gap lengths are geometrically distributed. • We verified that the null hypothesis is not rejected 90% of times at significance level 5% with a segment length of 1000, which is consistent with the Mann-Kendall test.

  12. CNR - ISTI - Frame error model in rural Wi-Fi networks AWGN model • Modelling the propagation channel as a simple AWGN channel provides a good fit with observed results.

  13. CNR - ISTI - Frame error model in rural Wi-Fi networks Practical usage • The three horizontal lines show the 8% FER threshold at the receiver at 54, 11 and 1 Mb/s.

  14. CNR - ISTI - Frame error model in rural Wi-Fi networks Conclusions • We performed a measurement campaign for measuring Wi-Fi RSSI and packet loss in a rural environment. • We obtained a frame error model that is more accurate than commonly used models. • We suggest that the two-ray CMU Monarch model (used in ns-2) should be substituted with the 2RM we propose. • We found that modelling the propagation channel as a simple AWGN provides a good fit with the observed results.

  15. CNR - ISTI - Frame error model in rural Wi-Fi networks Future work • We plan to investigate indoor environments using the same measurement procedure. • First results indicate that the indoor channel is far from Bernoullian, nor it is adequately represented by a Gilbert-Elliott on-off model. • Running some outdoor scenarios using different propagation models, specifically the ns-2 models, a simple on-off model, and the one we propose.

More Related