Title :
Robustness Analysis for Scheduling Problems Using the Inverse Method
Author :
Fribourg, Laurent ; Soulat, Romain ; Lesens, D. ; Moro, P.
Author_Institution :
LSV, ENS Cachan, Cachan, France
Abstract :
Given a Parametric Timed Automaton (PTA) A and a reference valuation for timings, the Inverse Method (IM) synthesizes a constraint around the reference valuation where A behaves in the same time-abstract manner. This provides us with a quantitative measure of robustness of the behavior of A around the reference valuation. We show in this paper how IM can be applied in a specific way to treat the robustness of scheduling systems. We also explain how to use the method in order to synthesize large zones of the timing parameter space where the system is guaranteed to be schedulable. We illustrate the method on several examples of the literature as well as a case study originating from an industrial design project.
Keywords :
automata theory; design engineering; inverse problems; project management; scheduling; IM; PTA; industrial design project; inverse method; parametric timed automaton; robustness analysis; robustness quantitative measure; scheduling problems; timing reference valuation; Cost accounting; Inverse problems; Robustness; Schedules; Switches; Tiles; Timing; Parametric Timed Automata; Robustness; Scheduling;
Conference_Titel :
Temporal Representation and Reasoning (TIME), 2012 19th International Symposium on
Conference_Location :
Leicester
Print_ISBN :
978-1-4673-2659-9
DOI :
10.1109/TIME.2012.10
