Revisiting the Characterization and the Modeling of User Impatience in Ubiquitous Networks
Pages 85 - 91
Abstract
In this paper we revisit the definition of user impatience in ubiquitous networks, by proposing a new characterization that does not reduce impatience to a simple timeout, like most previous works do. Instead, we characterize impatience by decoupling the cause of it, i.e., the probability that a given user becomes impatient, and the consequence, i.e., the reduction of the size of its transfer by a premature departure. From this new characterization, we develop two generic models based on M/G/1/PS queues that differ in the way impatient users decide to abort their transmission. We show by comparison with NS3 simulations, that these models have a high accuracy, and use them to investigate the influence of impatience on the performance of the network and on the quality of experience of users. One of our main findings is that impatience does not significantly degrade the global satisfaction of users with regards to a system without impatience, and greatly extends the range of utilization of the wireless network where customers have an acceptable satisfaction.
References
[1]
Ns3 network simulator. http://www.nsnam.org/.
[2]
F. Baccelli and G. Hebuterne. On queues with impatient customers. Research Report RR-0094, 1981.
[3]
T. Bonald and A. Proutière. Wireless downlink data channels: User performance and cell dimensioning. In Proceedings of the 9th Annual International Conference on Mobile Computing and Networking, MobiCom '03, pages 339--352, New York, NY, USA, 2003. ACM.
[4]
T. Bonald and J. W. Roberts. Congestion at flow level and the impact of user behaviour. Computer Networks, 42(4):521--536, 2003.
[5]
D. Collange, M. Hajji, J. Shaikh, M. Fiedler, and P. Arlos. User impatience and network performance. In Next Generation Internet, 2012, pages 141--148, 2012.
[6]
D. J. Daley. General customer impatience in the queue gi/g/1. Journal of Applied Probability, 2(1):186--205, 1965.
[7]
H. Eom, C. Kim, A. Melikov, and M. Fattakhova. Approximation method for qos analysis of wireless cellular networks with impatient calls. Industrial Engineering and Management Systems, 9:339--347, 2010.
[8]
S. Jiang and N. H. Vaidya. Scheduling data broadcast to "impatient" users. In International Workshop on Data Engineering for Wireless and Mobile Access, pages 52--59, New York, NY, USA, 1999. ACM.
[9]
N. Perel and U. Yechiali. Queues with slow servers and impatient customers. European Journal of Operational Research, 201(1):247 -- 258, 2010.
[10]
C. Sanogo, T. Chahed, and S. E. Elayoubi. Modeling user impatience and its impact on performance in mobile networks. In Personal Indoor and Mobile Radio Communications, 2013, pages 2861--2865, 2013.
[11]
S. Yang and G. de Veciana. Bandwidth sharing: the role of user impatience. In Global Telecommunications Conference, 2001. IEEE, volume 4, pages 2258--2262, 2001.
Index Terms
- Revisiting the Characterization and the Modeling of User Impatience in Ubiquitous Networks
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Information & Contributors
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Published In
November 2015
124 pages
ISBN:9781450337595
DOI:10.1145/2810379
- General Chair:
- Mónica Aguilar Igartua,
- Program Chairs:
- Carolina Tripp Barba,
- Cristina Alcaraz Tello
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Publication History
Published: 02 November 2015
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- ANR Agence Nationale de Recherche
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MSWiM'15
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MSWiM'15: 18th ACM International Conference on Modeling, Analysis and Simulation of Wireless and Mobile Systems
November 2 - 6, 2015
Cancun, Mexico
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Overall Acceptance Rate 70 of 240 submissions, 29%
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