35.5. References

[ieee80211]

IEEE Std 802.11-2012, Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications

[ieee80211-2016]

IEEE Std 802.11-2016, Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications

[pei80211b]

G. Pei and Tom Henderson, Validation of ns-3 802.11b PHY model

[pei80211ofdm]

G. Pei and Tom Henderson, Validation of OFDM error rate model in ns-3

[lacage2006yans]

M. Lacage and T. Henderson, Yet another Network Simulator

[Haccoun]

D. Haccoun and G. Begin, High-Rate Punctured Convolutional Codes for Viterbi Sequential Decoding, IEEE Transactions on Communications, Vol. 32, Issue 3, pp.315-319.

[Frenger]

Pâl Frenger et al., “Multi-rate Convolutional Codes”.

[ji2004sslswn]

Z. Ji, J. Zhou, M. Takai and R. Bagrodia, Scalable simulation of large-scale wireless networks with bounded inaccuracies, in Proc. of the Seventh ACM Symposium on Modeling, Analysis and Simulation of Wireless and Mobile Systems, October 2004.

[linuxminstrel]

minstrel linux wireless

[lacage2004aarfamrr]

M. Lacage, H. Manshaei, and T. Turletti, IEEE 802.11 rate adaptation: a practical approach, in Proc. 7th ACM International Symposium on Modeling, Analysis and Simulation of Wireless and Mobile Systems, 2004.

[kim2006cara]

J. Kim, S. Kim, S. Choi, and D. Qiao, CARA: Collision-Aware Rate Adaptation for IEEE 802.11 WLANs, in Proc. 25th IEEE International Conference on Computer Communications, 2006

[wong2006rraa]

S. Wong, H. Yang, S. Lu, and V. Bharghavan, Robust Rate Adaptation for 802.11 Wireless Networks, in Proc. 12th Annual International Conference on Mobile Computing and Networking, 2006

[maguolo2008aarfcd]

F. Maguolo, M. Lacage, and T. Turletti, Efficient collision detection for auto rate fallback algorithm, in IEEE Symposium on Computers and Communications, 2008

[proakis2001]

J. Proakis, Digital Communications, Wiley, 2001.

[miller2003]

L. E. Miller, “Validation of 802.11a/UWB Coexistence Simulation.” Technical Report, October 2003. Available online

[ferrari2004]

G. Ferrari and G. Corazza, “Tight bounds and accurate approximations for DQPSK transmission bit error rate”, Electronics Letters, 40(20):1284-85, September 2004.

[pursley2009]

M. Pursley and T. Royster, “Properties and performance of the IEEE 802.11b complementary code key signal sets,” IEEE Transactions on Communications, 57(2);440-449, February 2009.

[akella2007parf]

A. Akella, G. Judd, S. Seshan, and P. Steenkiste, ‘Self-management in chaotic wireless deployments’, in Wireless Networks, Kluwer Academic Publishers, 2007, 13, 737-755. https://web.archive.org/web/20200709172505/https://www.cs.odu.edu/~nadeem/classes/cs795-WNS-S13/papers/enter-006.pdf

[chevillat2005aparf]

Chevillat, P.; Jelitto, J., and Truong, H. L., ‘Dynamic data rate and transmit power adjustment in IEEE 802.11 wireless LANs’, in International Journal of Wireless Information Networks, Springer, 2005, 12, 123-145. https://web.archive.org/web/20170810111231/http://www.cs.mun.ca/~yzchen/papers/papers/rate_adaptation/80211_dynamic_rate_power_adjustment_chevillat_j2005.pdf

[hepner2015]

C. Hepner, A. Witt, and R. Muenzner, “In depth analysis of the ns-3 physical layer abstraction for WLAN systems and evaluation of its influences on network simulation results”, BW-CAR Symposium on Information and Communication Systems (SInCom) 2015. https://core.ac.uk/download/pdf/75487102.pdf#page=50

[baldo2010]

N. Baldo et al., “Validation of the ns-3 IEEE 802.11 model using the EXTREME testbed”, Proceedings of SIMUTools Conference, March 2010.

[lanante2019]

L. Lanante Jr. et al., “Improved Abstraction for Clear Channel Assessment in ns-3 802.11 WLAN Model”, Proceedings of the 2019 Workshop on ns-3, June 2019.

[bianchi2000]

G. Bianchi, “Performance analysis of the IEEE 802.11 distributed coordination function”, IEEE Communications Letters, 18(3):535–547, 2000.

[bianchi2005]

G. Bianchi and I. Tinnirello. “Remarks on IEEE 802.11 DCF performance analysis”, IEEE Communications Letters, 9(8):765–767, 2005.

[patidar2017]

R. Patidar et al., “Link-to-System Mapping for ns-3 Wi-Fi OFDM Error Models”, Proceedings of the Workshop on ns-3, June 2017. https://dl.acm.org/doi/10.1145/3067665.3067671

[erceg2004]

V. Erceg and L. Schumacher and P. Kyritsi, “Tgn channel models”, IEEE 802.11-03/940r4, 2004.

[porat2016]

R. Porat et al., “11ax Evaluation Methodology”, IEE P802.11 Wireless LANs, 11-14-0571r3, 2016.

[krotov2020rate]

A. Krotov, A. Kiryanov, E. Khorov., Rate Control With Spatial Reuse for Wi-Fi 6 Dense Deployments, IEEE Access, September 2020

[magrin2021mu]

D. Magrin, S. Avallone, S. Roy, and M. Zorzi, ‘Validation of the ns-3 802.11ax OFDMA implementation’, in Proceedings of WNS3 2021.

[avallone2021wcm]

S. Avallone, P. Imputato, G. Redieteab, C. Ghosh and S. Roy, “Will OFDMA Improve the Performance of 802.11 WiFi Networks?”, in IEEE Wireless Communications Magazine, DOI: 10.1109/MWC.001.2000332, to appear.

[corbet2012]

J. Corbet, “TCP Small Queues”, LWN.net, July 17, 2012

[grazia2022]

C. Grazia, N. Patriciello, T. Hoiland-Jorgensen, M. Klapez and M. Casoni, “Aggregating Without Bloating: Hard Times for TCP on Wi-Fi”, IEEE/ACM Transactions on Networking, Vol. 30, No.5, October 2022.