Robust 4D climate-optimal flight planning in structured airspace using parallelized simulation on GPUs: ROOST V1.0

to related objects

Abstract 2 emissions, which are responsible for two-thirds of aviation radiative forcing, highly depends on the atmospheric chemistry and weather conditions. Hence, by planning aircraft trajectories to reroute areas where the non-CO2 climate impacts are strongly enhanced, called climate-sensitive regions, there is a potential to reduce aviation-induced non-CO 2 climate effects. Weather forecast is inevitably uncertain, which can lead to unreliable determination of climate-sensitive regions and aircraft dynamical behavior and, consequently, inefficient trajectories. In this study, we propose robust climate-optimal aircraft trajectory planning within the currently structured airspace considering uncertainties in standard weather forecasts. The ensemble prediction system is employed to characterize uncertainty in the weather forecast, and climate-sensitive regions are quantified using the prototype algorithmic climate change functions. As the optimization problem is constrained by the structure of airspace, it is associated with hybrid decision spaces. To account for discrete and continuous decision variables in an integrated and more efficient manner, the optimization is conducted on the space of probability distributions defined over flight plans instead of directly searching for the optimal profile. A heuristic algorithm based on the augmented random search is employed and implemented on graphics processing units to solve the proposed stochastic optimization computationally fast. An open-source Python library called ROOST (V1.0) is developed based on the aircraft trajectory optimization technique. The effectiveness of our proposed strategy to plan robust climate-optimal trajectories within the structured airspace is analyzed through two scenarios: a scenario with a large contrail climate impact and a scenario with no formation of persistent contrails. It is shown that, for a nighttime flight from Frankfurt to Kyiv, a 55 % reduction in climate impact can be achieved at the expense of a 4 % increase in the operating cost.

Location
Deutsche Nationalbibliothek Frankfurt am Main
Extent
Online-Ressource
Language
Englisch

Bibliographic citation
Robust 4D climate-optimal flight planning in structured airspace using parallelized simulation on GPUs: ROOST V1.0 ; volume:16 ; number:13 ; year:2023 ; pages:3723-3748 ; extent:26
Geoscientific model development ; 16, Heft 13 (2023), 3723-3748 (gesamt 26)

Creator
Simorgh, Abolfazl
Soler, Manuel
González-Arribas, Daniel
Linke, Florian
Lührs, Benjamin
Meuser, Maximilian M.
Dietmüller, Simone
Matthes, Sigrun
Yamashita, Hiroshi
Yin, Feijia
Castino, Federica
Grewe, Volker
Baumann, Sabine

DOI
10.5194/gmd-16-3723-2023
URN
urn:nbn:de:101:1-2023071304305721776429
Rights
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
Last update
14.08.2025, 10:54 AM CEST

Data provider

This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Show original at data provider

Associated

Other Objects (12)

Robust 4D Climate Optimal Flight Planning in Structured Airspace using Parallelized Simulation on GPUs: ROOST V1.0

Robust 4D Climate Optimal Flight Planning in Structured Airspace using Parallelized Simulation on GPUs: ROOST V1.0

Parallelized pairwise sequence alignment using CUDA on multiple GPUs

Parallelized pairwise sequence alignment using CUDA on multiple GPUs

ASAMgpu V1.0 – a moist fully compressible atmospheric model using graphics processing units (GPUs)

ASAMgpu V1.0 – a moist fully compressible atmospheric model using graphics processing units (GPUs)

Manfred Roost : Portrait des Dirigenten Manfred Roost

Fotografie

Manfred Roost : Portrait des Dirigenten Manfred Roost

Roost, Paula

Personenakten

Roost, Paula

Roost, Hugo

Personenakten

Roost, Hugo

Roost, Walter

Personenakten

Roost, Walter

Roost, Walter

Personenakten

Roost, Walter

Roost, Ernst

Einzelporträt | Negativ

Roost, Ernst

Roost, Artur

Personenakten

Roost, Artur

Roost-ovens.

Illustration

Roost-ovens.

Massively parallelized STED nanoscopy

Hochschulschrift

Massively parallelized STED nanoscopy

Related objects