Cockpit Displays of Traffic and Weather Information: Effects of 3D Perspective Versus 2D Coplanar Rendering and Database Integration

Abstract

ABSTRACT Objective: The objectives were to evaluate the viability of 3-dimensional (3D) perspective aircraft hazard displays for traffic and weather, in isolation, and when the two were integrated into a single display panel. Background: Prior research identified the costs of such 3D perspective hazard displays, presented from an exocentric perspective, because of their ambiguity in presenting spatial relations in an unstructured 3D space. Research also supported the advantage of display overlay, particularly when both databases (traffic and weather) need to be integrated to make hazard avoidance judgments. The two variables had not been examined in conjunction. Method: Seventeen certified flight instructors flew a series of hazard avoidance maneuvers in a part-task simulator, with four displays, created by the combination of 3D versus 2-dimensional (2D) perspective and separate versus overlay hazard formats. Positioning of traffic and weather that would make it necessary to avoid hazards was designed to allow the study of both the strengths of overlay and weaknesses of 3D integration. Results: The data clearly indicated that hazard avoidance was worse with the 3D perspective display, for both traffic and weather hazards, and pointed to ambiguity as the cause. Display overlay was better than separation, but only when the task required consulting both databases. Conclusion: 3D perspective displays are not advised for hazard presentation on the flight deck. Overlays can be helpful, as long as clutter issues are addressed.