Abstract
The popular IEEE 802.11 standard defines a power saving mode that keeps the network interface in a low power sleep state and periodically powers it up to synchronize with the base station. The length of the sleep interval, the so called beacon period, affects two dimensions, namely application performance and energy consumption. The main disadvantage of this power saving policy lies in its static nature: a short beacon period wastes energy due to frequent activations of the interface while a long beacon period can cause diminished application responsiveness and performance. While the first aspect, reduction of power consumption, has been studied extensively, the implications on application performance have received only little attention. We argue that the tolerable reduction of performance or quality depends on the application and the user. As an example, a beacon period of only 100 ms slows down RPC-based operations like NFS dramatically, while the user will probably not recognize the additional delay when using a web browser. If at all, known power management algorithms guarantee a system wide limit on performance degradation without differentiating between different application profiles.
This work presents an approach to identify on-line the currently running application class by a mapping of network traffic characteristics to a predefined set of application profiles. We propose a power saving policy which dynamically adapts to the detected application profile, thus identifying the application- and user-specific power/performance trade-off. An implementation of the characterization algorithm is presented and evaluated running several typical applications for mobile devices.
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References
Anand, M., Nightingale, E.B., Flinn, J.: Self-tuning wireless network power management. In: Proceedings of the 9th Annual International Conference on Mobile Computing and Networking (MOBICOM 2003) (September 2003)
Bertozzi, D., Raghunathan, A., Benini, L., Srivaths, R.: Transport protocol optimization for energy efficient wireless embedded systems. In: Proceedings of the Design, Automation and Test Conference in Europe (DATE 2003) (March 2003)
Chandra, S.: Wireless network interface energy consumption implications of popular streaming formats. In: Proc. Multimedia Computing and Networking (MMCN 2002) (January 2002)
Chandra, S., Vahdat, A.: Application-specific network management for energy-aware streaming of popular multimedia format. In: Proceedings of the 2002 USENIX Annual Technical Conference (June 2002)
Cisco Systems, Inc. Cisco Aironet 350 Series Client Adapters (June 2003)
Feeney, L., Nilsson, M.: Investigating the energy consumption of a wireless network interface in an ad hoc networking environment. In: Proceedings of IEEE Infocom (April 2001)
Flinn, J., Satyanarayanan, M.: Energy-aware adaptation for mobile applications. In: Proceedings of the 17th Symposium on Operating System Principles SOSP 1999 (December 1999)
Krashinsky, R., Balakrishnan, H.: Minimizing energy for wireless web access with bounded slowdown. In: Proceedings of the Eighth Annual ACM/IEEE International Conference on Mobile Computing and Networking (MOBICOM 2002) (September 2002)
Kravets, R., Krishnan, P.: Application-driven power management for mobile communication. In: ACM/URSI/Baltzer Wireless Networks (WINET) special issue of Best Papers from MobiCom 1998 (1998)
Levandoski, J., Sommer, E., Strait, M.: Application layer packet classifier for Linux
Spitzner, L.: Passive fingerprinting. In: Security Focus (2000)
Stemm, M., Katz, R.H.: Measuring and reducing energy consumption of network interfaces in hand-held devices. IEEE Transactions on Communications E80-B 8, 1125–1131 (1997)
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© 2004 Springer-Verlag Berlin Heidelberg
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Weissel, A., Faerber, M., Bellosa, F. (2004). Application Characterization for Wireless Network Power Management. In: Müller-Schloer, C., Ungerer, T., Bauer, B. (eds) Organic and Pervasive Computing – ARCS 2004. ARCS 2004. Lecture Notes in Computer Science, vol 2981. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-24714-2_18
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DOI: https://doi.org/10.1007/978-3-540-24714-2_18
Publisher Name: Springer, Berlin, Heidelberg
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