467.600 PEOPLE
| People | Locations | Statistics |
|---|---|---|
| Serhiienko, Serhii |
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| Schmalz, Ulrike |
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| Oliveira, Marisa |
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| Ribeiro Pereira, Maria Teresa |
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| Bellér, Gábor |
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| Araujo, M. |
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| Frey, Michael | Karlsruhe |
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| Coutinho-Rodrigues, João | Coimbra |
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| Wouters, Christian Guillaume Louise | Aachen |
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| Kessel, Paul J. Van Van |
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| Árpád, István |
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| Fontul, Simona |
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| Kocsis, Dénes |
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| Cigada, Alfredo | Milan |
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| Oort, Neils Van | Delft |
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| Agárdi, Anita | Miskolc |
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| Andrews, Gordon E. |
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| Sousa, Nuno |
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| Witlox, Frank Jacomina Albert | Ghent |
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| Dobruszkes, Frederic |
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| Kiss, Judit T. |
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| Hadachi, Amnir | Saint-Étienne-du-Rouvray |
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| Hamilton, Carl J. | Kunovice |
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| Misiura, Serhii |
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| Schimpf, Marina |
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Irvine, Emma A.
in Cooperation with on an Cooperation-Score of 37%
Topics
- aircraft
- climate
- aviation
- air traffic
- air traffic control
- estimate
- environmental science
- fuel
- altitude
- jet propelled aircraft
- airspeed
- meteorology
- jet stream
- assessment
- case study
- engine
- noise
- flight
- optimisation
- indicating instrument
- implementation
- trajectory
- traffic flow
- motor
- air quality
- motor vehicle
- highway traffic control
- aeronautics
- prototype
- environmental policy
- performance evaluation
- key performance indicator
- aircraft operation
- astronautics
- environmental impact analysis
- planning method
- climate change
- planning
- modeling
- contaminant
- road
- safety
- routing
- map
- health
- public health
- region
- environmental impact
- fuel consumption
- market
- weather
- wind
- ozone
- methane
- operating costs
- summer
- winter
- occupational safety
- simulation
- software
- gas
- circle
- flight time
- data
- abstract
- physics
- chemistry
- geology
- oxide
- chain
- data file
- transient
- ice
- sensitivity
- formula
- nitrogen
- nitrogen oxide
- atmosphere
- water vapor
- steam
- factor of production
- carbon
- costs
- chemical
- carbon dioxide
- greenhouse gas
- global warming
- motivation
- stratosphere
- show 59 more
Publications
- 2018Aviation MET Services for identifying climate-optimal aircraft trajectories
- 2018The dependence of minimum-time routes over the North Atlantic on cruise altitudecitations
- 2017A Concept for Multi-Criteria Environmental Assessment of Aircraft Trajectoriescitations
- 2017Feasibility of climate-optimized air traffic routing for trans-Atlantic flightscitations
- 2016What are the implications of climate change for trans-Atlantic aircraft routing and flight time?citations
- 2014Aircraft routing with minimal climate impact: The REACT4C climate cost function modelling approach (V1.0)citations
- 2014Reduction of the air traffic's contribution to climate change: A REACT4C case studycitations
- 2013Aircraft routing with minimal climate impact: the REACT4C climate cost function modelling approach (V1.0)
- 2013Supplementary material to "Aircraft routing with minimal climate impact: the REACT4C climate cost function modelling approach (V1.0)"
- 2013Characterizing North Atlantic weather patterns for climate-optimal aircraft routingcitations
Places of action
