Performance Evaluation of Individual Aircraft Based Advisory Concept for Surface Management
نویسندگان
چکیده
Surface operations at airports in the US are based on tactical operations, where departure aircraft primarily queue up and wait at the departure runways. NASA’s Spot And Runway Departure Advisor (SARDA) tool was developed to address these inefficiencies through Air Traffic Control Tower advisories. The SARDA system is being updated to include collaborative gate hold, either tactically or strategically. This paper presents the results of the human-in-the-loop evaluation of the tactical gate hold version of SARDA in a 360 simulated tower setting. The simulations were conducted for the east side of the Dallas/Fort Worth airport. The new system provides gate hold, Ground Controller and Local Controller advisories based on a single scheduler. Simulations were conducted with SARDA on and off, the off case reflecting current day operations with no gate hold. Scenarios based on medium (1.2x current levels) and heavy (1.5x current levels) traffic were explored. Data collected from the simulation were analyzed for runway usage, delay for departures and arrivals, and fuel consumption. Further, Traffic Management Initiatives were introduced for a subset of the aircraft. Results indicated that runway usage did not change with the use of SARDA, i.e., there was no loss in runway throughput as compared to baseline. Taxiing delay was significantly reduced with the use of advisory by 45% in medium scenarios and 60% in heavy. Observed gate-holds were less than 15 minutes in all but one scenario, and even in this scenario 95% of the aircraft had a gate hold of less than 15 minutes. Arrival delay was unaffected by the use of advisory. Total fuel consumption was also reduced by 23% in medium traffic and 33% in heavy. TMI compliance appeared unaffected by the advisory. Keywords; departure metering; airport surface traffic; integrated surface management; human-in-the-loop simulation
منابع مشابه
Study the effect of nano Al2O3 and nano graphene ceramic additives on the aircraft anti-icing/de-icing fluids
In the present study, the effect of nano Al2O3 and nano graphene ceramic additives in optimizing performance and improving thermophysical properties of aircraft anti-icing/de-icing fluids was investigated. Nanoparticles were characterized by TEM, SEM and XRD methods. The thermal conductivity, surface tension and dynamic viscosity of the hybrid nanofluids were experimentally assessed for tempera...
متن کاملPerformance Evaluation of Nursing Faculty Members: A Qualitative Study
Introduction: Performance evaluation (PE) of nurse faculty members is complicated and difficult but seems necessary. Deans of the faculties, their educational assistants, and faculty member nurses are responsible for planning, performing, and revising evaluation. Finding their common views in developing PE is of special importance. The aim of this study was to elucidate and describe PE of nurse...
متن کاملشناسایی شاخصهای کلیدی سنجش عملکرد افراد برای پرداخت پاداش
The current performance evaluation process are inspired by performance management within the organizations to take a step further in a way to the factors such as competency, merit, capacity for improvement and promotion are supposed to be taken into account the in addition to performance evaluation itself. Nowadays, the organizations prefer to set more accurate criteria for performance evaluat...
متن کاملThrust Augmentation by Airframe-Integrated Linear-Spike Nozzle Concept for High-Speed Aircraft
The airframe-integrated linear-spike nozzle concept applied to an external nozzle for high-speed aircraft was evaluated with regard to the thrust augmentation capability and the trim balance. The main focus was on the vehicle aftbody. The baseline airframe geometry was first premised to be a hypersonic waverider design. The baseline aftbody case had an external nozzle comprised of a simple dive...
متن کاملA Bayesian Network Model of Pilot Response to TCAS Resolution Advisories
The effectiveness of an airborne collision avoidance system (CAS) is influenced by the manner in which pilots respond to the system’s advisories. Current pilot response models used in CAS modeling and simulation are agnostic to parameters affecting pilot response in individual encounters and therefore treat all encounters equally. Simulations using these models can potentially underestimate col...
متن کامل