Research Article
k-server optimal task scheduling problem with convex cost function
@INPROCEEDINGS{10.1109/WIOPT.2005.25, author={Mingjie Lin and Yaling Ma }, title={k-server optimal task scheduling problem with convex cost function}, proceedings={3rd International ICST Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks}, publisher={IEEE}, proceedings_a={WIOPT}, year={2005}, month={4}, keywords={}, doi={10.1109/WIOPT.2005.25} }
- Mingjie Lin
Yaling Ma
Year: 2005
k-server optimal task scheduling problem with convex cost function
WIOPT
IEEE
DOI: 10.1109/WIOPT.2005.25
Abstract
We consider a class of k-server optimal task scheduling problems partitioning and scheduling N tasks with various real-time constrains and work loads on k servers with convex task processing cost function so as to minimize the total task processing cost while still guaranteeing satisfaction of all time constraints. This class has broad expressing power for practical scheduling problems in several areas such as real-time multimedia wireless transmission , CPU energy conservation, and warehouse order processing management, et. al. Our formulation is quite general such that most previous works can be readily reduced to a special case of the presented k-server optimal task scheduling problem. We show that, when k = 1, optimal solution can be obtained in computational complexity of O(N) and the corresponding optimal scheduling problem is equivalent to finding the shortest 2D Euclidean distance between two vertices inside a well-defined 2D polygon. However, when k 2, the optimal scheduling problem can be demonstrated to be NP-hard by reducing it to a well-known NP-complete bin-packing problem. Therefore, we conclude no polynomial time algorithm exists for a general k-server optimal task scheduling problem. We then construct approximation algorithms to solve the presented k-server problem in a practical way and illustrate its performance by simulation results and analysis.