Paper Info
Title
Holding Time Maximization Preserving Output Performance for Timed Event Graphs
Abstract
The trade-off between energy consumption and execution time (i.e., for a given task, the faster it is achieved, the higher its energy consumption is) is investigated for systems modeled by timed event graphs. In this technical note, we aim to increase execution times (and, consequently, lower energy consumption) while preserving input-output and perturbation-output behaviors. Under this condition, the optimal solution is independent of the considered cost functions and is obtained using residuation theory.
Year
DOI
Venue
2014
10.1109/TAC.2013.2297202
Automatic Control, IEEE Transactions  
Keywords
Field
DocType
graph theory,cost functions,energy consumption,execution time,holding time maximization preserving output performance,input-output behavior,perturbation-output behavior,residuation theory,timed event graphs,Dioid,Petri nets,discrete event systems,timed event graphs
Graph theory,Graph,Mathematical optimization,Polynomial,Control theory,Computer science,Holding time,Transfer function,Throughput,Energy consumption,Maximization
Journal
Volume
Issue
ISSN
59
7
0018-9286
Citations 
PageRank 
References 
0
0.34
4
Authors
4
Name
Order
Citations
PageRank
Xavier David-Henriet151.98
Laurent Hardouin217128.97
Jörg Raisch339058.45
Bertrand Cottenceau412015.81