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by Hao Zhu, Guohong Cao
IEEE Transactions on Mobile Computing, Aug
http://mcn.cse.psu.edu/paper/zhu/tmc05.pdf
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Abstract:
Abstract—Reducing the power consumption of the wireless network interface (WNI) is an effective way to prolong the battery lifetime of the mobile terminal. It takes some time for the WNI to transit from the power-saving mode to the active mode. This transition delay and the error-prone wireless link bring many challenges for designing power-aware and QoS-aware service models. In this paper, we present a novel power-conserving service model for streaming applications over wireless networks. At the base station side, a new scheduling algorithm, called rate-based bulk scheduling (RBS), is designed to decide which flow should be served at which time. The mobile terminal relies on a proxy to buffer data so that the WNI can sleep for a long time period to save power. To deal with channel errors, a novel adaptive technique is presented to adjust the sleep time of the WNI according to the channel condition. Through analysis, we prove that RBS can provide delay guarantee and it is more power efficient than other rate-based fair queuing algorithms. We use Audio-on-Demand as a case study to evaluate the performance of RBS. Experimental results show that RBS achieves excellent QoS provision for each flow and significantly reduces the power consumption. Index Terms—Power-aware, simulations, QoS, scheduling, wireless networks. 1
Citations
|
459
|
Geography-informed energy conservation for ad-hoc routing,” presented at the
– Xu, Heidemann, et al.
- 2001
|
|
419
|
Service Disciplines for Guaranteed Performance Service in Packet-Switching Networks
– Zhang
- 1995
|
|
390
|
Charging and rate control for elastic traffic
– Kelly
- 1997
|
|
233
|
Measuring and reducing energy consumption of network interfaces in handheld devices
– Stemm, Katz
- 1997
|
|
224
|
WF2Q: Worst-case fair weighted fair queueing
– Bennett, Zhang
- 1996
|
|
147
|
Start-time fair queuing: A scheduling algorithm for integrated services packet switching networks
– Goyal, Vin, et al.
- 1996
|
|
137
|
Packet fair queueing algorithms for wireless networks with location-dependent errors
– Ng, Stoica, et al.
- 1998
|
|
123
|
Latency-rate servers: a general model for analysis of traffic scheduling algorithms
– Stiliadis, Varma
- 1998
|
|
108
|
Viterbi “CDMA/HDR: a bandwidth-efficient high-speed wireless data service for nomadic users
– Bender, Black, et al.
- 2000
|
|
76
|
Minimizing energy for wireless web access with bounded slowdown
– Balakrishnan
|
|
69
|
Gamal. Energy-efficient transmission over a wireless link via lazy packet scheduling
– Prabhakar, Uysal-Biyikoglu, et al.
- 2001
|
|
63
|
Finite-state Markov channel-A useful model for radio communication channels
– Wang, Moayeri
- 1995
|
|
46
|
A Wireless Fair Service Algorithm for Packet Cellular Networks
– Lu, Nandagopal, et al.
- 1998
|
|
42
|
Application-specific network management for energy-aware streaming of popular multimedia formats
– Chandra, Vahdat
- 2002
|
|
32
|
Transmission scheduling for efficient wireless network utilization
– Liu, Chong, et al.
- 2001
|
|
23
|
On fundamental tradeoffs between delay bounds and computational complexity in packet scheduling algorithms
– Xu, Lipton
- 2002
|
|
21
|
A Prefetching Protocol for Continuous Media Streaming in Wireless Environments
– Fitzek, Reisslein
- 2001
|
|
18
|
Scheduling Multimedia Services in A Low-Power MAC for Wireless and Mobile ATM Networks
– Chen, Sivalingam, et al.
- 1999
|
|
11
|
WCFQ: an opportunistic wireless scheduler with statistical fairness bounds
– Liu, Gruhl, et al.
- 2003
|
|
9
|
Managing power consumption
– Simunic, Boyd
- 2002
|
|
4
|
A power-aware and QoS-aware service model on wireless networks
– Zhu, Cao
- 2004
|
|
3
|
Energy-efficient real-time scheduling
– Zhang, Ge, et al.
- 2003
|
|
1
|
Motorola V 60i User Manual,” http://commerce. motorola.com/consumer/QWhtml/manual.html
– Motorola
- 2005
|
|
1
|
5510 Specifications,” http://www.nokia.com
– Nokia
- 2005
|
|
1
|
Threshold-Based Dynamic Replication in Large-Scale Video-on-Demand Systems
– Shakkottai, Srikant
- 2002
|
|
1
|
The cdma2000 System for Mobile Communications. Upper Saddle, N.J
– Vanghi, Damnjanovic, et al.
- 2004
|
|
1
|
Energy Efficient Modulation and MAC for Asymmetric
– Wang, Cho, et al.
- 2001
|
|
1
|
Buffering Approach for Energy Saving
– Yuan, Nahrstedt
- 2003
|
