The Development of the Air Anti-Submarine Warfare MissionTestbed as a Tool for the Development of Operator Models

Abstract

The central concern of human factors engineering (HFE) is facilitating a productive relationship between man and machine. A new generation of man-machine systems has arisen in which the machine acts in a relatively intelligent manner to enhance the operator's decision-making capabilities in real-time multi-tasking situations. These systems have been termed “distributed intelligence systems” (DIS) because intelligence is distributed among all system entities, whether they are human or computer. The ability of these systems to aid humans in a flexible, interactive fashion depends on the capability of the machine to predict the human's information needs in a given decision-making situation. Thus, the DIS must incorporate a model that reflects the operator's information processing requirements for the tasks necessary to operate the system. To construct this model, it is necessary to develop a DIS testbed where experimental investigations can occur. The mission environment chosen for simulation is the Naval Air Anti-Submarine Warfare (ASW) mission, whose objectives to search for, find, and attack the enemy submarine involve complex tactical decisions in a real-time multi-tasking environment. In the Air ASW mission, most significant tactical decisions are made by the Tactical Coordinator (TACCO), the main operator of the system. The aspects of the testbed discussed in this paper include those elements of the simulation and responsibilities of the TACCO needed to illustrate the types of information processing tasks involved in the ASW mission. Also, the data collection capabilities of the testbed and how this data will be applied to operator model development will be discussed.