Airship dynamics modeling: A literature review

Abstract The resurgence of airships has created a need for dynamics models and simulation capabilities adapted to these lighter-than-air vehicles. However, the modeling techniques for airship dynamics have lagged behind and are less systematic than those for fixed-wing aircraft. A state-of-the-art literature review is presented on airship dynamics modeling, aiming to provide a comprehensive description of the main problems in this area and a useful source of references for researchers and engineers interested in modern airship applications. The references are categorized according to the major topics in this area: aerodynamics, flight dynamics, incorporation of structural flexibility, incorporation of atmospheric turbulence, and effects of ballonets. Relevant analytical, numerical, and semi-empirical techniques are discussed, with a particular focus on how the main differences between lighter-than-air and heavier-than-air aircraft have been addressed in the modeling. Directions are suggested for future research on each of these topics.

[1]  Hugh B. Freeman,et al.  Pressure-Distribution Measurements on the Hull and Fins of a 1/40-Scale Model of the U. S. Airship "Akron." , 1934 .

[2]  H. Julian Allen,et al.  Characteristics of flow over inclined bodies of revolution , 1951 .

[3]  Max M Munk,et al.  The Aerodynamic Forces on Airship Hulls , 1979 .

[4]  W. Garrard,et al.  Optimal Ascent Trajectories for Stratospheric Airships Using Wind Energy , 2009 .

[5]  John D. Hunt Structural Analysis of Aerostat Flexible Structure by the Finite-Element Method , 1982 .

[6]  Masaaki Nakadate Development and Flight Test of SPF-2 Low Altitude Stationary Flight Test Vehicle , 2005 .

[7]  Barnes W. McCormick,et al.  Aerodynamics, Aeronautics and Flight Mechanics , 1979 .

[8]  Inna Sharf,et al.  Dynamics Modeling and Simulation of Flexible Airships , 2009 .

[9]  Toshiyuki Maeda,et al.  Tear Propagation of a High-Performance Airship Envelope Material , 2008 .

[10]  Edward J Hopkins A semi-empirical method for calculating the pitching moment of bodies of revolution at low Mach numbers , 1951 .

[11]  T. Lutz,et al.  Drag Reduction and Shape Optimization of Airship Bodies , 1998 .

[12]  R. Ibrahim Liquid Sloshing Dynamics: Theory and Applications , 2005 .

[13]  Bernard Etkin,et al.  Turbulent Wind and Its Effect on Flight , 1981 .

[14]  Meyer Nahon,et al.  Modeling and Simulation of Airship Dynamics , 2007 .

[15]  Alexander H. Flax Comment on "A Comparison of Different Forms of Dirigible Equations of Motion" , 1979 .

[16]  Chuan-jing Lu,et al.  Investigation of Airship Aeroelasticity Using Fluid-Structure Interaction , 2008 .

[17]  David K. Schmidt,et al.  Modeling and Near-Space Stationkeeping Control of a Large High-Altitude Airship , 2007 .

[18]  R. F. Ringland,et al.  Flight dynamics analysis and simulation of heavy lift airships. Volume 1: Executive summary , 1982 .

[19]  William S. Vorus,et al.  Hydrodynamic Added-Mass Matrix of Vibrating Ship Based on a Distribution of Hull Surface Sources , 1981 .

[20]  H. N. Abramson,et al.  The Dynamic Behavior of Liquids in Moving Containers, with Applications to Space Vehicle Technology , 1966 .

[21]  Naoufel Azouz,et al.  An Efficient Modelling of Flexible Airships , 2006 .

[22]  Rajkumar S. Pant,et al.  A generic methodology for determination of drag coefficient of an aerostat envelope using CFD , 2005 .

[23]  Yung-Gyo Lee,et al.  Development of Korean High Altitude Platform Systems , 2006, Int. J. Wirel. Inf. Networks.

[24]  J. Delaurier,et al.  The Shenandoah flies again - A computer simulation , 1981 .

[25]  J. Azinheira,et al.  Erratum on "Influence of Wind Speed on Airship Dynamics" , 2008 .

[26]  Lin Liao,et al.  A review of airship structural research and development , 2009 .

[27]  Simon Lacroix,et al.  The Autonomous Blimp Project of LAAS-CNRS: Achievements in Flight Control and Terrain Mapping , 2004, Int. J. Robotics Res..

[28]  Eric Schall,et al.  Inviscid flow calculation around a flexible airship , 2003 .

[29]  Comandur Venkatesan,et al.  Aeroelastic effects in multi-rotor vehicles with application to a hybrid heavy lift system. Part 1: Formulation of equations of motion , 1984 .

[30]  Norihiro Goto,et al.  Identification of Blimp Dynamics via Flight Tests , 2003 .

[31]  Sungchul Kang,et al.  Flying Display: Autonomous Blimp with Real-Time Visual Tracking and Image Projection , 2006, 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[32]  John J. Wrobleski The lateral response of an airship to turbulence. , 1983 .

[33]  Xiao-Liang Wang,et al.  Shape Optimization of Stratosphere Airship , 2006 .

[34]  S. B. V. Gomes,et al.  An investigation into the flight dynamics of airships with application to the YEZ-2A , 1990 .

[35]  Sergio Pellegrino,et al.  Shape Optimization of "Pumpkin" Balloons , 2007 .

[36]  P. Thomasson Equations of motion of a vehicle in a moving fluid , 2000 .

[37]  H. C. Curtiss,et al.  LTA Aerodynamic Data Revisited , 1975 .

[38]  R H Smith,et al.  Air Forces, Moments and Damping on Model of Fleet Airship Shenandoah , 1922 .

[39]  G. E. Dorrington,et al.  Drag of Spheroid-Cone Shaped Airship , 2006 .

[40]  Hugh B. Freeman,et al.  Force Measurements on a 1/40-scale Model of the U. S. Airship "Akron." , 1933 .

[41]  Kazuo Matsuuchi,et al.  Aerodynamics Design and Genetic Algorithms for Optimization of Airship Bodies , 2003 .

[42]  H. Kojima,et al.  Estimation of Flyable Regions for Planetary Airships , 2006 .

[43]  Nathan Slegers,et al.  Comment on "Three-Dimensional Ascent Trajectory Optimization for Stratospheric Airship Platforms in the Jet Stream" , 2009 .

[44]  Katsuya Saito,et al.  The Effect of Ballonet Slosh on an Airship’s Longitudinal Motion , 2004 .

[45]  G. E. Dorrington,et al.  Development of an airship for tropical rain forest canopy exploration , 2005, The Aeronautical Journal (1968).

[46]  Justin Amann A comparison of a nonlinear flight dynamic simulation of an airship with flight test results , 1987 .

[47]  M. V. Cook,et al.  Analysis of the stability modes of the non-rigid airship , 2000, The Aeronautical Journal (1968).

[48]  Qu Wei-dong,et al.  Dynamic modeling for airship equipped with ballonets and ballast , 2005 .

[49]  Lee Rainwater,et al.  Applications of Scientific Ballooning Technology to High Altitude Airships , 2003 .

[50]  Geoffrey Ingram Taylor,et al.  The Forces on a Body Placed in a Curved or Converging Stream of Fluid , 1928 .

[51]  Thor I. Fossen,et al.  Guidance and control of ocean vehicles , 1994 .

[52]  Meyer Nahon,et al.  Dynamics Modeling for an Unmanned, Unstable, Fin-Less Airship , 2009 .

[53]  J. Calligeros,et al.  RESPONSE AND LOADS ON AIRSHIPS DUE TO DISCRETE AND RANDOM GUSTS , 1958 .

[54]  J. D. Delaurier,et al.  Aerodynamic estimation techniques for aerostats and airships , 1981 .

[55]  M.J.B. Lagrange Aerodynamic forces on an airship hull in atmospheric turbulence , 1984 .

[56]  J. Delaurier,et al.  AN APPLICATION OF SOURCE-PANEL AND VORTEX METHODS FOR AERODYNAMIC SOLUTIONS OF AIRSHIP CONFIGURATIONS , 1985 .

[57]  A. H. Bell,et al.  Experiments on rigid airship R.29. , 1921 .

[58]  C Pope,et al.  THE BIG LIFT , 2004 .

[59]  Yasmina Bestaoui,et al.  Some insights in path planning of small autonomous blimps , 2001 .

[60]  Peter Funk,et al.  Experimental investigations on hull-fin interferences of the LOTTE airship , 2003 .

[61]  Meyer Nahon,et al.  Stability Analysis of a Tethered Aerostat , 2002 .

[62]  Hyochoong Bang,et al.  Three-Dimensional Ascent Trajectory Optimization for Stratospheric Airship Platforms in the Jet Stream , 2007 .

[63]  Leonard Meirovitch,et al.  Unified theory for the dynamics and control of maneuvering flexible aircraft , 2004 .

[64]  Robert H. Scanlan,et al.  A Modern Course in Aeroelasticity , 1981, Solid Mechanics and Its Applications.

[65]  Paul Gelhausen,et al.  Pre- and post-flight-test models versus measured skyship-500 control responses , 1987 .

[66]  S. S. Bueno,et al.  Influence of Wind Speed on Airship Dynamics , 2002 .

[67]  Josué Jr. Guimarães Ramos,et al.  Robotic Airships for Exploration of Planetary Bodies with an Atmosphere: Autonomy Challenges , 2003, Auton. Robots.

[68]  James L. Dolce,et al.  High-Altitude, Long-Endurance Airships for Coastal Surveillance , 2013 .

[69]  J. Delaurier,et al.  Airship survivability in atmospheric turbulence , 1981 .

[70]  R. Blevins,et al.  Formulas for natural frequency and mode shape , 1984 .

[71]  Octavian Frederich,et al.  Nonlinear airship aeroelasticity , 2005 .

[72]  George E Kaattari,et al.  Lift and center of pressure of wing-body-tail combinations at subsonic, transonic, and supersonic speeds , 1953 .

[73]  F L Thompson Full-Scale Turning Characteristics of the U.S.S. Los Angeles , 1930 .

[74]  J. Delaurier A Stability Analysis for Tethered Aerodynamically Shaped Balloons , 1972 .

[75]  Andrei Kornienko,et al.  System identification approach for determining flight dynamical characteristics of an airship from flight data , 2006 .

[76]  Bernd Kröplin,et al.  Structural Performance Evaluation Procedure for Large Flexible Airship of HALE Stratospheric Platform Conception , 2007 .

[77]  In Lee,et al.  Mechanical property characterization of film-fabric laminate for stratospheric airship envelope , 2006 .

[78]  James DeLaurier Influence of Ballonet Motions on the Longitudinal Stability of Tethered Aerostats , 1979 .

[79]  Shoji Maekawa,et al.  Structures of the Low Altitude Stationary Flight Test Vehicle , 2007 .