We analyze wireless measurements taken during the SIGCOMM 2004 conference to understand how well 802.11 operates in real deployments. We find that the overhead of 802.11 is high, with only 40% of the transmission time spent in sending original data. Most of the remaining time is consumed by retransmissions due to packet losses that are caused by both contention and transmission errors. Our analysis also shows that wireless nodes adapt their transmission rates with an extremely high frequency. We comment on the difficulties and opportunities of working with wireless traces, rather than the wired traces of wireless activity that are presently more common.

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	1	Daniel Aguayo , John Bicket , Sanjit Biswas , Glenn Judd , Robert Morris, Link-level measurements from an 802.11b mesh network, Proceedings of the 2004 conference on Applications, technologies, architectures, and protocols for computer communications, August 30-September 03, 2004, Portland, Oregon, USA
	2	Anand Balachandran , Geoffrey M. Voelker , Paramvir Bahl , P. Venkat Rangan, Characterizing user behavior and network performance in a public wireless LAN, Proceedings of the 2002 ACM SIGMETRICS international conference on Measurement and modeling of computer systems, June 15-19, 2002, Marina Del Rey, California
	3	Magdalena Balazinska , Paul Castro, Characterizing mobility and network usage in a corporate wireless local-area network, Proceedings of the 1st international conference on Mobile systems, applications and services, p.303-316, May 05-08, 2003, San Francisco, California  [doi>10.1145/1066116.1066127]
	4	J. Bicket. Bit-rate selection in wireless networks. Master's thesis, MIT, 2005.
	5	F. Chinchilla, M. Lindsey, and M. Papadopouli. Analysis of wireless information locality and association patterns in a campus. In INFO-COM, 2004.
	6	Tristan Henderson , David Kotz , Ilya Abyzov, The changing usage of a mature campus-wide wireless network, Proceedings of the 10th annual international conference on Mobile computing and networking, September 26-October 01, 2004, Philadelphia, PA, USA  [doi>10.1145/1023720.1023739]
	7	Amit P. Jardosh , Krishna N. Ramachandran , Kevin C. Almeroth , Elizabeth M. Belding-Royer, Understanding link-layer behavior in highly congested IEEE 802.11b wireless networks, Proceeding of the 2005 ACM SIGCOMM workshop on Experimental approaches to wireless network design and analysis, August 22-22, 2005, Philadelphia, Pennsylvania, USA  [doi>10.1145/1080148.1080151]
	8	J. Robinson, D. Papagiannaki, C. Diot, X. Guo, and L. Krishnamurthy. Experimenting with a multi-radio mesh networking testbed. In 1st workshop on Wireless Network Measurements (WiNMee), 2005.
	9	D. Schwab and R. Bunt. Characterising the use of a campus wireless network. In INFOCOM, 2004.
	10	Diane Tang , Mary Baker, Analysis of a local-area wireless network, Proceedings of the 6th annual international conference on Mobile computing and networking, p.1-10, August 06-11, 2000, Boston, Massachusetts, United States  [doi>10.1145/345910.345912]
	11	Jihwang Yeo , Moustafa Youssef , Ashok Agrawala, A framework for wireless LAN monitoring and its applications, Proceedings of the 2004 ACM workshop on Wireless security, October 01-01, 2004, Philadelphia, PA, USA  [doi>10.1145/1023646.1023660]