Title :
Evolutionary testing as both a testing and redesign tool: a study of a shipboard firemain´s valve and pump controls
Author :
Anderson, Carl ; Bonabeau, Eric ; Scott, John M.
Author_Institution :
Icosystem Corp., Cambridge, MA, USA
Abstract :
Given the large number of possible fault scenarios, complex control systems are usually impossible to test exhaustively. One promising approach, however, is evolutionary testing (ET) in which a genetic algorithm (GA) evolves critical test situations. We evolved challenges (pipe rupture and water demand) to the valve and pump controls of a shipboard firemain system. ET found minor events that collectively produced significant system failure, and also identified a modification to the ship design that improved system performance. ET can also be used to map the boundary of search space for a given, user-defined criterion. The potential of this powerful, generic technique not just for testing but also for system redesign is thus emphasized.
Keywords :
control system CAD; control system analysis computing; evolutionary computation; fires; genetic algorithms; hydraulic systems; pumps; ships; testing; valves; control systems testing; evolutionary testing; genetic algorithm; pipe rupture; shipboard firemain pump controls; shipboard firemain valve control; system redesign; Control systems; Electronic ballasts; Genetic algorithms; Liquid crystal on silicon; Marine vehicles; Power engineering and energy; Pressure control; System performance; System testing; Valves;
Conference_Titel :
Evolutionary Computation, 2004. CEC2004. Congress on
Print_ISBN :
0-7803-8515-2
DOI :
10.1109/CEC.2004.1330983
