Valuating Surface Surveillance Technology for Collaborative Multiple-Spot Control of Airport Departure Operations

TL;DR

This paper evaluates how advanced surface surveillance technologies can improve airport departure operations by reducing taxiing aircraft, emissions, and delays, especially when integrated with gate- or spot-release strategies.

Contribution

It demonstrates the environmental and safety benefits of improved surveillance technologies in multi-spot departure control, with specific case studies at major airports.

Findings

4% to 6% reduction in aircraft on taxiway

Significant emissions reduction during congested periods

Enhanced safety and operational efficiency

Abstract

Airport departure operations are a source of airline delays and passenger frustration. Excessive surface traffic is a cause of increased controller and pilot workload. It is also a source of increased emissions and delays, and does not yield improved runway throughput. Leveraging the extensive past research on airport departure management, this paper explores the environmental and safety benefits that improved surveillance technologies can bring in the context of gate- or spot-release strategies. The paper shows that improved surveillance technologies can yield 4% to 6% reduction of aircraft on taxiway, and therefore emissions, in addition to the savings currently observed by implementing threshold starategies under evaluation at Boston Logan Airport and other busy airports during congested periods. These calculated benefits contrast sharply with our previous work, which relied on simplified airport ramp areas with a single departure spot, and where fewer environmental and economic benefits of advanced surface surveillance systems could be established. Our work is illustrated by its application to New-York LaGuardia and Seattle Tacoma airports.