With the development of modern military technology, new combat equipment increased function-ality, and at the same time increased the workload of the operator. The goal of this study is to accurately and objectively predict the mental workload of the pilots of receiver aircraft (RA) during aerial refueling.
The prediction model is based on the multiple resource theory (MRT). Level-based weight as-sessment (LBWA) and the decision-making trial and evaluation laboratory–interpretative structural modeling (DEMATEL-ISM) method are used to determine the weights of mental resource channels in terms of importance and relevance, respectively, due to arithmetic accuracy and ability to analyze at multiple levels of hierarchy. Furthermore, the Mental Workload Dynamic Model (MWDM) was introduced to propose a Mental Workload Prediction Model (CM-MRT) based on MRT, combined with combined weighting and MWDM.
The effectiveness of the model is verified by a simulation experiment of a refueling mission. The results show that the proposed model has a high correlation with the subjective and objective workload data measured in the simulation experiments.
This paper provides an evaluation process of the workload of RA pilots in aerial refueling, which can evaluate the workload of pilots from four dimensions: visual, auditory, cognitive and psychomotor, and can dynamically describe the dynamic floating process of the workload through the MWMD model.
