Future of Electric Aviation and Artificial Intelligence
portes grátis
Future of Electric Aviation and Artificial Intelligence
Proceedings of the 2023 International Symposium on Electric Aviation & Autonomous Systems and the International Symposium on Unmanned Systems, AI, Design & Efficiency
Dalkiran, Alper; Ercan, Ali Haydar; Karakoc, T. Hikmet; Zaporozhets, Oleksandr
Springer International Publishing AG
12/2024
173
Dura
9783031620935
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Chapter 1. Parametric Approach to Initial Weight Determination at Preliminary Design of a Quadrotor Cargo UAV.- Chapter 2. Comparative Analysis of AI-Supported Drone Operations: Evaluating Critical Aspects Among Pilot Groups.- Chapter 3. Nontraditional Attitude Filtering with Uncertain Process Noise.- Chapter 4. Exergetic Attribute of Fuel Cells In Hydrogen Aviation Including UAVs.- Chapter 5. Direct Numerical Simulation of a Thermal Turbulent Boundary Layer: An Analogy to Simulate Bushfires and a Testbed for Artificial Intelligence Remote Sensing of Bushfire Propagation.- Chapter 6. Unmanned Aerial Vehicles Cooperation for The Monitoring of Greenhouse Gases.- Chapter 7. Fast-Time Large-Scale Simulations for Unmanned Air Traffic Airspace Capacity Assessment.- Chapter 8. On The Technological and Operational Aspects of the Greening of Aviation.- Chapter 9. Review and Analysis of the Integration Properties of an Aircraft with a Hybrid Power Plant.- Chapter 10. Optimization of Quadcopter Energy Consumption: Insights from Wind Condition Analysis and Trajectory Planning.- Chapter 11. Sustainable Aviation Fuels and Their Use for Large Long-Range Aircraft.- Chapter 12. An Overview of The Possibilities, Current Status, and Limitations of Battery Technologies to Electrify Aviation.- Chapter 13. The Potential of a Proton Exchange Membrane Fuel Cell Powered Light Aircraft Employing Cryogenic Hydrogen.- Chapter 14. Fault Tolerant Estimation of UAV Dynamics in the Presence of Sensor/Actuator Faults
.- Chapter 15. Hydrogen Storage in a Commuter Aircraft: Combining Classical Engineering Design Process With Model Based System Engineering for CFRP Pressure Vessel Integration.- Chapter 16. Review of Liquid Hydrogen Tanks Design Principles for Short and Medium-Range Civil Flights.- Chapter 17. New Supersonic Aircraft Emission and Air Pollution Assessment At Airport Operational Scenario.- Chapter 18. Aircraft Emission and Fuel Burn Assessment Scenarios at Local and Global Levels.- Chapter 19. Noise Assessment Scenarios for New Airplane Climate Efficient Designs
.- Chapter 20. Composite Gradient Coatings Design for Ensuring Electromagnetic Compatibility of On-Board and Ground Electronic Equipment.- Chapter 21. Renewable Energy Systems for Airports And Aerodromes: a Comprehensive Patent Review and Technological Analysis.- Chapter 22. Adaptation of Smart Energy Map to Transportation Domain a Case Study to Small Airfield Buildings and Other Infrastructures.- Chapter 23. Modeling the Noise Characteristics of a Regional Turboprop Hybrid-Electric Aircraft .- Chapter 24. Concepts of Commercial Aircraft with Hybrid Propulsion.- Chapter 25. Highly Accurate and Confident Basic Aircraft Noise Assessment Scenario.
.- Chapter 15. Hydrogen Storage in a Commuter Aircraft: Combining Classical Engineering Design Process With Model Based System Engineering for CFRP Pressure Vessel Integration.- Chapter 16. Review of Liquid Hydrogen Tanks Design Principles for Short and Medium-Range Civil Flights.- Chapter 17. New Supersonic Aircraft Emission and Air Pollution Assessment At Airport Operational Scenario.- Chapter 18. Aircraft Emission and Fuel Burn Assessment Scenarios at Local and Global Levels.- Chapter 19. Noise Assessment Scenarios for New Airplane Climate Efficient Designs
.- Chapter 20. Composite Gradient Coatings Design for Ensuring Electromagnetic Compatibility of On-Board and Ground Electronic Equipment.- Chapter 21. Renewable Energy Systems for Airports And Aerodromes: a Comprehensive Patent Review and Technological Analysis.- Chapter 22. Adaptation of Smart Energy Map to Transportation Domain a Case Study to Small Airfield Buildings and Other Infrastructures.- Chapter 23. Modeling the Noise Characteristics of a Regional Turboprop Hybrid-Electric Aircraft .- Chapter 24. Concepts of Commercial Aircraft with Hybrid Propulsion.- Chapter 25. Highly Accurate and Confident Basic Aircraft Noise Assessment Scenario.
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Conference Proceedings;Aircraft HVAC;Aircraft Design;Autonomous Systems;Fuel Cells in Aircraft;Hybrid-Electric Propulsion Systems;Sustainable Aviation;Unmanned Aerial Vehicle (UAV);Electric Aviation;Energy Storage
Chapter 1. Parametric Approach to Initial Weight Determination at Preliminary Design of a Quadrotor Cargo UAV.- Chapter 2. Comparative Analysis of AI-Supported Drone Operations: Evaluating Critical Aspects Among Pilot Groups.- Chapter 3. Nontraditional Attitude Filtering with Uncertain Process Noise.- Chapter 4. Exergetic Attribute of Fuel Cells In Hydrogen Aviation Including UAVs.- Chapter 5. Direct Numerical Simulation of a Thermal Turbulent Boundary Layer: An Analogy to Simulate Bushfires and a Testbed for Artificial Intelligence Remote Sensing of Bushfire Propagation.- Chapter 6. Unmanned Aerial Vehicles Cooperation for The Monitoring of Greenhouse Gases.- Chapter 7. Fast-Time Large-Scale Simulations for Unmanned Air Traffic Airspace Capacity Assessment.- Chapter 8. On The Technological and Operational Aspects of the Greening of Aviation.- Chapter 9. Review and Analysis of the Integration Properties of an Aircraft with a Hybrid Power Plant.- Chapter 10. Optimization of Quadcopter Energy Consumption: Insights from Wind Condition Analysis and Trajectory Planning.- Chapter 11. Sustainable Aviation Fuels and Their Use for Large Long-Range Aircraft.- Chapter 12. An Overview of The Possibilities, Current Status, and Limitations of Battery Technologies to Electrify Aviation.- Chapter 13. The Potential of a Proton Exchange Membrane Fuel Cell Powered Light Aircraft Employing Cryogenic Hydrogen.- Chapter 14. Fault Tolerant Estimation of UAV Dynamics in the Presence of Sensor/Actuator Faults
.- Chapter 15. Hydrogen Storage in a Commuter Aircraft: Combining Classical Engineering Design Process With Model Based System Engineering for CFRP Pressure Vessel Integration.- Chapter 16. Review of Liquid Hydrogen Tanks Design Principles for Short and Medium-Range Civil Flights.- Chapter 17. New Supersonic Aircraft Emission and Air Pollution Assessment At Airport Operational Scenario.- Chapter 18. Aircraft Emission and Fuel Burn Assessment Scenarios at Local and Global Levels.- Chapter 19. Noise Assessment Scenarios for New Airplane Climate Efficient Designs
.- Chapter 20. Composite Gradient Coatings Design for Ensuring Electromagnetic Compatibility of On-Board and Ground Electronic Equipment.- Chapter 21. Renewable Energy Systems for Airports And Aerodromes: a Comprehensive Patent Review and Technological Analysis.- Chapter 22. Adaptation of Smart Energy Map to Transportation Domain a Case Study to Small Airfield Buildings and Other Infrastructures.- Chapter 23. Modeling the Noise Characteristics of a Regional Turboprop Hybrid-Electric Aircraft .- Chapter 24. Concepts of Commercial Aircraft with Hybrid Propulsion.- Chapter 25. Highly Accurate and Confident Basic Aircraft Noise Assessment Scenario.
.- Chapter 15. Hydrogen Storage in a Commuter Aircraft: Combining Classical Engineering Design Process With Model Based System Engineering for CFRP Pressure Vessel Integration.- Chapter 16. Review of Liquid Hydrogen Tanks Design Principles for Short and Medium-Range Civil Flights.- Chapter 17. New Supersonic Aircraft Emission and Air Pollution Assessment At Airport Operational Scenario.- Chapter 18. Aircraft Emission and Fuel Burn Assessment Scenarios at Local and Global Levels.- Chapter 19. Noise Assessment Scenarios for New Airplane Climate Efficient Designs
.- Chapter 20. Composite Gradient Coatings Design for Ensuring Electromagnetic Compatibility of On-Board and Ground Electronic Equipment.- Chapter 21. Renewable Energy Systems for Airports And Aerodromes: a Comprehensive Patent Review and Technological Analysis.- Chapter 22. Adaptation of Smart Energy Map to Transportation Domain a Case Study to Small Airfield Buildings and Other Infrastructures.- Chapter 23. Modeling the Noise Characteristics of a Regional Turboprop Hybrid-Electric Aircraft .- Chapter 24. Concepts of Commercial Aircraft with Hybrid Propulsion.- Chapter 25. Highly Accurate and Confident Basic Aircraft Noise Assessment Scenario.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
