Machine Learning Approach for Predicting Persistent Contrails Formation Region
Award last edited on: 1/16/2023

Sponsored Program
Awarding Agency
Total Award Amount
Award Phase
Solicitation Topic Code
Principal Investigator
Ruben Del Rosario

Company Information

Crown Consulting Inc (AKA: CCI)

1400 Key Boulevard Suite 1100
Arlington, VA 22209
   (703) 650-0663
Location: Single
Congr. District: 08
County: Arlington

Phase I

Contract Number: 80NSSC22PB002
Start Date: 7/21/2022    Completed: 1/25/2023
Phase I year
Phase I Amount
The proposal is motivated by the need for models for predicting the environmental impact of planned operations to enable aircraft operators to make tradeoffs between the benefit of reducing the negative environmental impact and the cost of deviating from fuel optimal routes and altitudes. These models will also provide metrics for policy makers to assess long term impact of the policies for reducing the environmental impact of aviation. Modeling of two major sources of environmental impact of aviation: (1) persistent contrails and (2) emissions have been proposed. A machine-learning approach is proposed for forecasting regions of persistent contrails formation using features derived from atmospheric data and satellite images. Compared to earlier models that are point-based, our proposal is a region-based prediction methodology with reduced uncertainty in the prediction of regions of persistent contrails formation using clustering techniques. For improving the emissions estimates, we propose a computational procedure for estimating the takeoff weight considering in part information provided in the flight plan. Simulation of trajectories with the estimated takeoff weight along with regions of persistent contrail formation predicted by the machine-learning model provide environmental impact in terms of expected emissions and contrail formation. Potential NASA Applications (Limit 1500 characters, approximately 150 words): The proposed machine-learning model for forecasting regions of persistent contrails formation, and the takeoff weight estimation method for improving emissions estimates integrated into NASA’s air traffic management (ATM) simulators such as the Future ATM Concepts Evaluation System and the ATM-Testbed will enable environmental impact assessment of technologies and concepts for improving safety, efficiency, capacity, and throughput, and of implementation of NASA technologies in the current and future NAS. Potential Non-NASA Applications (Limit 1500 characters, approximately 150 words): The machine-learning model, along with trajectory simulation integrated into a web-enabled cloud-based tool will enable the FAA and the aircraft operators to determine environmental impact in decision-making. These models can provide information to policy makers about relative merits of environmental horizons (10 yrs vs 20 yrs) and efforts to reduce the impact of emissions and contrails. Duration: 6

Phase II

Contract Number: ----------
Start Date: 00/00/00    Completed: 00/00/00
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