Metamodel Development for Graphical Design Interfaces: Results from a Manufacturing Simulation Study

Abstract

Engineers are relying more and more on modern computer tools and techniques to visualize complex data sets; however, few studies have examined the effect of fast, graphical design interfaces on user performance during system design. The objective in this paper is to extend our previous findings in this area by examining the impact of fast, graphical design interfaces on design efficiency and effectiveness within the context of a job shop design problem. We accomplish this by investigating the effect of an artificial response delay, mimicking computationally intensive analyses, on user performance. Experimental results indicate that user performance deteriorates significantly when a small response delay of 1.5 seconds is introduced: percent error and task completion time increase by 9.4% and 81 seconds, on average, respectively, when the delay is present. The use of first-order, stepwise, and second-order polynomial regression models for approximating the system responses (outputs) is also investigated, and user performance is found to improve when stepwise polynomial regression models are used instead of first-order or second-order models. The stepwise models yielded 12% lower error and 91 seconds faster completion times, on average, over the first-order models; error was 13.5% lower and completion time was 62 seconds faster, on average, then when second-order models were used. The results confirm our previous findings about the negative impact of response delay on task completion time while demonstrating that delay can also significantly decrease the efficacy of a metamodeldriven graphical design interface.