Adaptive Disk Spin-Down for Mobile Computers

Appeared in ACM/Baltzer Mobile Networks and Applications Journal .

Abstract

We address the problem of deciding when to spin down the disk of a mobile computer in order to extend battery life. One of the most critical resources in mobile computing environments is battery life, and good energy conservation methods increase the utility of mobile systems. We use a simple and efficient algorithm based on machine learning techniques that has excellent performance. Using trace data, the algorithm outperforms several methods that are theoretically optimal under various worst-case assumptions, as well as the best fixed time-out strategy. In particular, the algorithm reduces the power consumption of the disk to about half of the energy consumed by a one minute fixed time-out policy. Furthermore, the algorithm uses as little as 88% of the energy consumed by the best fixed time-out computed in retrospect.

Publication date:
January 2000

Authors:
David P. Helmbold
Darrell D. E. Long
Tracey L. Sconyers
Bruce Sherrod

Projects:
Effective Mobility

Available media

Full paper text: PDF

Bibtex entry

@article{MONET-Helmbold-2000,
  author       = {David P. Helmbold and Darrell D. E. Long and Tracey L. Sconyers and Bruce Sherrod},
  title        = {Adaptive Disk Spin-Down for Mobile Computers},
  journal      = {ACM/Baltzer Mobile Networks and Applications Journal},
  volume       = {},
  month        = jan,
  year         = {2000},
}