The Proceedings of the 2021 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2021), Volume 1 (eBook, PDF)
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The Proceedings of the 2021 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2021), Volume 1 (eBook, PDF)
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This proceeding comprises peer-reviewed papers of the 2021 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2021), held from 15-17 November 2021 in Jeju, South Korea. This book deals with various themes on computational fluid dynamics, wind tunnel testing, flow visualization, UAV design, flight simulation, satellite attitude control, aeroelasticity and control, combustion analysis, fuel injection, cooling systems, spacecraft propulsion and so forth. So, this book can be very helpful not only for the researchers of universities and academic institutes, but also for the…mehr
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This proceeding comprises peer-reviewed papers of the 2021 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2021), held from 15-17 November 2021 in Jeju, South Korea. This book deals with various themes on computational fluid dynamics, wind tunnel testing, flow visualization, UAV design, flight simulation, satellite attitude control, aeroelasticity and control, combustion analysis, fuel injection, cooling systems, spacecraft propulsion and so forth. So, this book can be very helpful not only for the researchers of universities and academic institutes, but also for the industry engineers who are interested in the current and future advanced topics in aerospace technology.
Produktdetails
- Produktdetails
- Verlag: Springer Nature Singapore
- Erscheinungstermin: 30. August 2022
- Englisch
- ISBN-13: 9789811926891
- Artikelnr.: 65484088
- Verlag: Springer Nature Singapore
- Erscheinungstermin: 30. August 2022
- Englisch
- ISBN-13: 9789811926891
- Artikelnr.: 65484088
Sangchul Lee received his B.S. and M.S. degrees in Aeronautical Engineering from Seoul National University, Korea, in 1986 and 1988, respectively. He got his Ph.D. degree from Texas A&M University in 1994. Then he worked for Samsung Aerospace Industries, Ltd. and Korea Aerospace Industries, Ltd. from 1994 to 2006. He joined Korea Aerospace University in 2006, currently serving as a professor of the School of Aerospace and Mechanical Engineering. His research interests include flight dynamics and aircraft control, dynamics and control of space structures, avionics system design, system engineering and management, and software engineering. Currently, he is serving as a BK21FOUR program director of Smart Drone Convergence E&R center of Korea Aerospace University.
Cheolheui Han graduated from department of Mechanical Engineering of Hanyang University in 1993 and got master and Ph.D. degrees in the same department in 1998 and 2003, respectively. His Ph.D.degree was on the aerodynamic analysis and design of a flying train inside a track utilizing the wing-in-ground effect. While he was a Ph.D. student, in 2000, we worked at the Ocean Engineering Group, Dept. of Civil Engineering, University of Texas at Austin(USA) as a visiting scholar. After graduation, we worked at the Dept. of Aerospace and Ocean Engineering, Virginia Tech(USA) as a visiting postdoctoral researcher. In 2004, he worked at Kengwon Tech as a CFD engineer. After working as a lecture professor at Hanyang University for a year and doing research at Artificial Muscle Center at Konkuk as a research professor, he joined the Aeronautical and Mechanical Design Department of Korea National University of Transportation, Chungju, Korea, in 2006. He is now serving as a professor at the same department. He was included in Marqui’s Who’s who in the World in 2007. He spent his sabbatical year at the Cavitation Laboratory in the University of Texas at Austin in 2012. His current research interests are unsteady aerodynamics of insect wings and flying birds. He is developing a hybrid method between the boundary integral, vortex, and stochastic methods
Jeong-Yeol Choi is a professor of Aerospace Engineering, Pusan National University, Republic of Korea. He received his Ph.D. from the Seoul National University in 1997. His research interests include dynamics of energetics flows, high-pressure combustion, detonation, reaction kinetics, multi-phase/particle flows, and turbulence–chemistry interaction in propulsion systems. He has co-authored more than 140 archival papers and more than 400 conference papers with international colleagues. He is an associate fellow of the AIAA, and his other professional activities include The Combustion Institute, IDERS, KSAS, KSPE, KOSCO, and KSCFE. He served as the program manager of Space R&D of National Research Foundation (NRF) of Korea, planning and evaluation of Space R&D programs including the development of space launch vehicle, micro- to GEO satellites, space exploration, and basic space researches sponsored by the Ministry of Science, ICT, Republic of Korea Government. Currently, he is serving as a BK21FOUR program director of DRONE E&R center of Pusan National University.
Seungkeun Kim received his B.Sc. degree in Mechanical and Aerospace Engineering from Seoul National University (SNU), Seoul, Korea, in 2002, and then acquired his Ph.D. degree from SNU in 2008. He is currently a professor at the Department of Aerospace Engineering, Chungnam National University, Korea. He was an associate professor and an assistant professor at the same university from 2012 to 2020. He was a visiting scholar at George Washington University at Washington D.C. in 2019. Previously, he was a research fellow and a lecturer at Cranfield University, UK, from 2008 to 2012. He is interested in micro-aerospace systems, aircraft guidance and control, estimation, sensor fusion, faultdiagnosis, fault-tolerant control, and decision-making for autonomous systems.
Jeong Ho Kim graduated from department of Aerospace Engineering of Seoul National University in 1992, and he got master and Ph.D. degrees in department of Aerospace Engineering at the same university in 1994 and 1999, respectively. His Ph.D. degree was on the parallel computation technique of finite element method for large-scale structural analysis. As soon as he got a Ph.D. degree, he entered the national supercomputing center of Korea Institute of Science and Technology Information (KISTI) as a senior researcher. After nine years’ service, he moved to MIDAS IT as a main developer of the commercial finite element analysis software package, midas NFX. He joined Inha University, Incheon, Korea, in 2012, currently serving as a professor of Department of Aerospace Engineering. He was nominated as one of the Finalists of the Gordon Bell Prize in 2003 for his high-performance parallel sparse direct solver for efficient finite element analysis. This sparse solver has been used as the main linear solver for many research and commercial finite element analysis codes. His current research interests are high-performance computing for computational structural mechanics, additive manufacturing for aerospace applications, and machine learning and data mining for structural mechanics.
Cheolheui Han graduated from department of Mechanical Engineering of Hanyang University in 1993 and got master and Ph.D. degrees in the same department in 1998 and 2003, respectively. His Ph.D.degree was on the aerodynamic analysis and design of a flying train inside a track utilizing the wing-in-ground effect. While he was a Ph.D. student, in 2000, we worked at the Ocean Engineering Group, Dept. of Civil Engineering, University of Texas at Austin(USA) as a visiting scholar. After graduation, we worked at the Dept. of Aerospace and Ocean Engineering, Virginia Tech(USA) as a visiting postdoctoral researcher. In 2004, he worked at Kengwon Tech as a CFD engineer. After working as a lecture professor at Hanyang University for a year and doing research at Artificial Muscle Center at Konkuk as a research professor, he joined the Aeronautical and Mechanical Design Department of Korea National University of Transportation, Chungju, Korea, in 2006. He is now serving as a professor at the same department. He was included in Marqui’s Who’s who in the World in 2007. He spent his sabbatical year at the Cavitation Laboratory in the University of Texas at Austin in 2012. His current research interests are unsteady aerodynamics of insect wings and flying birds. He is developing a hybrid method between the boundary integral, vortex, and stochastic methods
Jeong-Yeol Choi is a professor of Aerospace Engineering, Pusan National University, Republic of Korea. He received his Ph.D. from the Seoul National University in 1997. His research interests include dynamics of energetics flows, high-pressure combustion, detonation, reaction kinetics, multi-phase/particle flows, and turbulence–chemistry interaction in propulsion systems. He has co-authored more than 140 archival papers and more than 400 conference papers with international colleagues. He is an associate fellow of the AIAA, and his other professional activities include The Combustion Institute, IDERS, KSAS, KSPE, KOSCO, and KSCFE. He served as the program manager of Space R&D of National Research Foundation (NRF) of Korea, planning and evaluation of Space R&D programs including the development of space launch vehicle, micro- to GEO satellites, space exploration, and basic space researches sponsored by the Ministry of Science, ICT, Republic of Korea Government. Currently, he is serving as a BK21FOUR program director of DRONE E&R center of Pusan National University.
Seungkeun Kim received his B.Sc. degree in Mechanical and Aerospace Engineering from Seoul National University (SNU), Seoul, Korea, in 2002, and then acquired his Ph.D. degree from SNU in 2008. He is currently a professor at the Department of Aerospace Engineering, Chungnam National University, Korea. He was an associate professor and an assistant professor at the same university from 2012 to 2020. He was a visiting scholar at George Washington University at Washington D.C. in 2019. Previously, he was a research fellow and a lecturer at Cranfield University, UK, from 2008 to 2012. He is interested in micro-aerospace systems, aircraft guidance and control, estimation, sensor fusion, faultdiagnosis, fault-tolerant control, and decision-making for autonomous systems.
Jeong Ho Kim graduated from department of Aerospace Engineering of Seoul National University in 1992, and he got master and Ph.D. degrees in department of Aerospace Engineering at the same university in 1994 and 1999, respectively. His Ph.D. degree was on the parallel computation technique of finite element method for large-scale structural analysis. As soon as he got a Ph.D. degree, he entered the national supercomputing center of Korea Institute of Science and Technology Information (KISTI) as a senior researcher. After nine years’ service, he moved to MIDAS IT as a main developer of the commercial finite element analysis software package, midas NFX. He joined Inha University, Incheon, Korea, in 2012, currently serving as a professor of Department of Aerospace Engineering. He was nominated as one of the Finalists of the Gordon Bell Prize in 2003 for his high-performance parallel sparse direct solver for efficient finite element analysis. This sparse solver has been used as the main linear solver for many research and commercial finite element analysis codes. His current research interests are high-performance computing for computational structural mechanics, additive manufacturing for aerospace applications, and machine learning and data mining for structural mechanics.
Asia-Pacific Region’s Aircraft Design and Development Strategy for Single-Aisle Aircraft in the Oligopoly Market of Boeing and Airbus.- Study on wind resistance characteristics of Multi-rotor UAV.- Inverse Design Method of Transonic Airfoil Based on Deep Neural Network,- High-rise Building Wind Field Simulation.- Study on Aerodynamic Characteristics of “Propeller/Wing” System with Overset Meshes Method.- An Ontology Based Single Source of Truth (SSOT) Construction Approach for Aircraft Modeling and Simulation.- Experimental Investigations on Aerodynamic and Psychoacoustic Characteristics of Loop-Type Propeller.- Effect of Dynamic Micro Vortex Generator on Corner Shock Wave Boundary Layer Interactions Based on DES.- Aerodynamic Characteristics of a Compound Deflected LEF/TEF Rotor.- Analysis of Aerodynamic Characteristics and Influence of Parameters of the Quad Tiltrotor Aircraft.- A Two-step Optimization Method Using POD-based GeometricParameterization for Aerodynamic Shape Optimization.- Anti-Icing Performance of Engine Inlet Cone by Hot Air Film.- Aerodynamic characteristics of close UAV formation.- Conceptual design and system level analysis of tilt-duct eVTOL aircraft.- Research on Wind Tunnel Test of the Total Pressure Probe Layout for Civil Aircraft.- Study on the Dynamic Aerodynamic Performance of Airfoil with Direct Force Measurement.- The Research of Correlationship and Critical Ice Shape Acquisition in CIRA-IWT Icing Wind Tunnel.
Asia-Pacific Region's Aircraft Design and Development Strategy for Single-Aisle Aircraft in the Oligopoly Market of Boeing and Airbus.- Study on wind resistance characteristics of Multi-rotor UAV.- Inverse Design Method of Transonic Airfoil Based on Deep Neural Network,- High-rise Building Wind Field Simulation.- Study on Aerodynamic Characteristics of "Propeller/Wing" System with Overset Meshes Method.- An Ontology Based Single Source of Truth (SSOT) Construction Approach for Aircraft Modeling and Simulation.- Experimental Investigations on Aerodynamic and Psychoacoustic Characteristics of Loop-Type Propeller.- Effect of Dynamic Micro Vortex Generator on Corner Shock Wave Boundary Layer Interactions Based on DES.- Aerodynamic Characteristics of a Compound Deflected LEF/TEF Rotor.- Analysis of Aerodynamic Characteristics and Influence of Parameters of the Quad Tiltrotor Aircraft.- A Two-step Optimization Method Using POD-based GeometricParameterization for Aerodynamic Shape Optimization.- Anti-Icing Performance of Engine Inlet Cone by Hot Air Film.- Aerodynamic characteristics of close UAV formation.- Conceptual design and system level analysis of tilt-duct eVTOL aircraft.- Research on Wind Tunnel Test of the Total Pressure Probe Layout for Civil Aircraft.- Study on the Dynamic Aerodynamic Performance of Airfoil with Direct Force Measurement.- The Research of Correlationship and Critical Ice Shape Acquisition in CIRA-IWT Icing Wind Tunnel.
Asia-Pacific Region’s Aircraft Design and Development Strategy for Single-Aisle Aircraft in the Oligopoly Market of Boeing and Airbus.- Study on wind resistance characteristics of Multi-rotor UAV.- Inverse Design Method of Transonic Airfoil Based on Deep Neural Network,- High-rise Building Wind Field Simulation.- Study on Aerodynamic Characteristics of “Propeller/Wing” System with Overset Meshes Method.- An Ontology Based Single Source of Truth (SSOT) Construction Approach for Aircraft Modeling and Simulation.- Experimental Investigations on Aerodynamic and Psychoacoustic Characteristics of Loop-Type Propeller.- Effect of Dynamic Micro Vortex Generator on Corner Shock Wave Boundary Layer Interactions Based on DES.- Aerodynamic Characteristics of a Compound Deflected LEF/TEF Rotor.- Analysis of Aerodynamic Characteristics and Influence of Parameters of the Quad Tiltrotor Aircraft.- A Two-step Optimization Method Using POD-based GeometricParameterization for Aerodynamic Shape Optimization.- Anti-Icing Performance of Engine Inlet Cone by Hot Air Film.- Aerodynamic characteristics of close UAV formation.- Conceptual design and system level analysis of tilt-duct eVTOL aircraft.- Research on Wind Tunnel Test of the Total Pressure Probe Layout for Civil Aircraft.- Study on the Dynamic Aerodynamic Performance of Airfoil with Direct Force Measurement.- The Research of Correlationship and Critical Ice Shape Acquisition in CIRA-IWT Icing Wind Tunnel.
Asia-Pacific Region's Aircraft Design and Development Strategy for Single-Aisle Aircraft in the Oligopoly Market of Boeing and Airbus.- Study on wind resistance characteristics of Multi-rotor UAV.- Inverse Design Method of Transonic Airfoil Based on Deep Neural Network,- High-rise Building Wind Field Simulation.- Study on Aerodynamic Characteristics of "Propeller/Wing" System with Overset Meshes Method.- An Ontology Based Single Source of Truth (SSOT) Construction Approach for Aircraft Modeling and Simulation.- Experimental Investigations on Aerodynamic and Psychoacoustic Characteristics of Loop-Type Propeller.- Effect of Dynamic Micro Vortex Generator on Corner Shock Wave Boundary Layer Interactions Based on DES.- Aerodynamic Characteristics of a Compound Deflected LEF/TEF Rotor.- Analysis of Aerodynamic Characteristics and Influence of Parameters of the Quad Tiltrotor Aircraft.- A Two-step Optimization Method Using POD-based GeometricParameterization for Aerodynamic Shape Optimization.- Anti-Icing Performance of Engine Inlet Cone by Hot Air Film.- Aerodynamic characteristics of close UAV formation.- Conceptual design and system level analysis of tilt-duct eVTOL aircraft.- Research on Wind Tunnel Test of the Total Pressure Probe Layout for Civil Aircraft.- Study on the Dynamic Aerodynamic Performance of Airfoil with Direct Force Measurement.- The Research of Correlationship and Critical Ice Shape Acquisition in CIRA-IWT Icing Wind Tunnel.