An Assessment of Submarine Approach Officer Decision-Making and Its Implications for Command Workstation Design

Abstract

U.S. Navy Submarine Approach Officers (AO) use tactical skills acquired from years at sea and a seemingly natural panache to accurately determine an enemy submarine's bearing range, course, and speed. This thesis investigates the effects of AO demographic differences and combat system employment methodologies on the ability to develop a timely and accurate firing solution. Employing a low-resolution submarine combat simulator, approximately 10 percent of the total pool of AO's were taken through two of four pre-scripted initial contact scenarios. The AO's were instructed to execute each scenario until they perceive that an accurate solution is obtained on the enemy submarine. The demographic differences of geographic location, ship type, and duty type are the top three traits that distinguish between success and failure. Further data analysis reveals differences in the information utilization of the simulator between successful and unsuccessful operators. Additionally, utilizing a survey administered to the subjects and basic display design principles, a notional command workstation for the next generation of submarine is developed. The conclusions of this research provide insight into the cognitive modeling, training, and selection of AO's, as well as adding to the growing body of work in the design of military decision support systems.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 1998

Accession Number

ADA358437

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