I. H. Abbott, A. E. Doenhoff, and . Von, Theory of wing sections, 1959.

K. Alexander and J. Stevenson, Kite equilibrium and bridle length. The Aeronautical, Journal, pp.535-341, 1051.

J. D. Anderson, Fundamentals of aerodynamics, 2011.

K. L. Apedo, S. Ronel, E. Jacquelin, A. Bennani, and M. Massenzio, Nonlinear finite element analysis of inflatable beams made from orthotropic woven fabric, International journal of Solids and Structures, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00991421

C. Archer, Airborne Wind Energy. Springer. Chap. An Introduction to meteorology for airborne wind energy, pp.81-95, 2013.

C. Archer and M. Jacobson, Evaluation of global wind power, Journal of Geophysical Research, 2005.

I. Argatov and R. Silvennoinen, Energy Conversion Efficiency of the Pumping Kite Wind Generator. Renewable Energy, p.35, 2009.

I. Argatov, P. Rautakorpi, and R. Sivennoinen, Apparent wind load effects on the tether of a kite power generator, Journal of Wind Engineering and Industrial Aerodynamics, vol.99, pp.1079-1088, 2011.

B. Augier, Etudes expérimentales de l'interaction fluide-structure sur surface souple: application aux voiles de bateaux, 2012.

B. Augier, P. Bot, F. Hauville, and M. Durand, Dynamic behaviour of a flexible yacht sail plan, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01071543

R. Barsotti and S. S. Ligaro, Static response of elastic inflated wrinkled membranes, Computational Mechanics, p.53, 2014.

M. Behrel, Investigation of kites for auxiliary ship propulsion: experiment setup, trials, data analysis and kite specs novel identification approach, 2017.

J. J. Bertin and R. M. Cummings, Aerodynamic for engineers, 2009.

N. Bigi, Investigation of the dynamic motions and operability of a ship towed by kite, 2017.
URL : https://hal.archives-ouvertes.fr/tel-02191551

R. Borobia, G. Sanchez-arriaga, A. Serino, and R. Schmehl, Flight-Path Reconstruction and Flight Test of Four-Line Power Kites, Journal of Guidance, Control, and Dynamics, 2018.

A. Bosch, R. Schmehl, P. Rixen, and D. , Dynamic Nonlinear Aeroelastic Model of a Kite for Power Generation, Journal of Guidance, Control and Dynamics, vol.37, issue.5, pp.1426-1436, 2014.

H. A. Bosch, Finite element analysis of a kite for power generation, 2012.

J. Breukels, An engineering methodology for kite design, 2011.

J. Breukels and W. Ockels, A multi-body dynamics approach to a cable simulator for kites, Asian Conference on Modelling and Simulation, 2007.

J. Breukels and W. J. Ockels, A Multi-Body System Approach to the Simulation of Flexible Membrane Airfoils, Aerotecnica Missili & Spazio, vol.89, issue.3, pp.119-134, 2010.

J. Breukels, R. Schmehl, and W. Ockels, Airborne Wind Energy. Springer. Chap. Aeroelastic Simulation of Flexible Membrane Wings based on Multibody System Dynamics, 2013.

R. A. Carter, Boat remains and maritime trade in the Persian Gulf during sixth and fifth millennia B.C. Antiquity, 2006.

T. Charvet, Simulation numérique de l'écoulement autour des voiles de bateau, 3èmes Journées de l'Hydrodynamique, 1991.

R. G. Cowper, The shear coefficient in Timoshenko's beam theory, Journal of Applied Mechanics, vol.33, pp.335-340, 1966.

G. Dadd, D. Hudson, and R. Shenoi, Comparison of Two Kite Force Model with Experiment, Journal of Aircraft, vol.47, issue.1, pp.212-224, 2010.

G. Dadd, D. A. Hudson, and R. A. Shenoi, Determination of kite forces using three-dimensionnal flight trajectories for ship propulsion, Renewable Energy, vol.36, issue.10, pp.2667-2678, 2011.

S. G. De-groot, J. Breukels, R. Schmehl, and W. Ockels, Modeling Kite Flight Dynamics Using a Multibody Reduction Approach, Journal of Guidance, Control and Dynamics, issue.6, p.34, 2011.

G. De-nayer, Interaction Fluide-Structure pour les corps élancés, 2008.

E. Du-pontavice, Propulsion par cerf-volant : envol et pérégrinations, 2016.

R. Duckworth, The application of elevated sail (kites) for fuel saving auxiliary propulsion of commercial vessels, Journal of Wind Engineering and Industrial aerodynamics, vol.20, pp.297-315, 1985.

C. Duport, J. Leroux, K. Roncin, C. Jochum, and Y. Parlier, Comparison of 3D non-linear lifting line method calculations with 3D RANSE simulations and application to the prediction of the global load on a cornering kite, 2017.

M. Erhard and H. Strauch, Control of Towing Kite for Seagoing Vessels, IEEE Transactions on control systems technology, vol.21, issue.5, pp.1629-1640, 2013.

U. Fechner and R. Schmehl, Chap. Modelbased efficiency analysis of wind power conversion by a pumping kite power system, pp.249-269, 2013.

L. T. Filotas, Solution of the lifting line equation for twisted elliptic wings, Journal of Aircraft, vol.8, issue.10, pp.835-836, 1971.

F. Fritz, Airborne wind energy. Springer. Chap. Application of an automated kite system for ship propulsion and power generation, pp.359-372, 2013.

M. Gaunaa, P. Carqueija, P. Réthoré, and N. Sorensen, A computationally efficient method for determining the aerodynamic perfomace of kites for wind energy applications, European Wind Energy Association (EWEA), 2011.

J. S. Goela, R. Vijaykumar, and R. H. Zimmermann, Performance Characteristics of a Kite-Powered Pump, Journal of Energy Resources Technology, vol.108, issue.2, p.188, 1986.

K. Graf, A. V. Hoeve, and S. Watin, Comparison of full 3D-RANS simulations with 2D-RANS/lifting line method calculations for the flow analysis of rigid wings for high performance multihulls, Ocean Engineering, vol.90, pp.49-61, 2014.

S. G. Groot and . De, Modelling the dynamics of an arc-shaped kite for control law design, 2010.

F. Hauville and Y. Roux, Dynamic control of a sail by fluid/structure intercation method, 9èmes Journées de l'Hydrodynamique, 2003.

F. Hauville, S. Mounoury, Y. Roux, and J. A. Astolfi, Equilibre dynamique d'une structure idéalement flexible dans un écoulement : application à la déformation des voiles, Journées AUM AFM, 2004.

S. E. Hobbs, A quantitative study of kite performance in natural wind with application to kite anemometry, 1986.

S. F. Hoerner, Fluid-dynamic drag, 1965.

. Ipcc, Global warming of 1.5°C, an IPCC special report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty, 2018.

A. Jarasjarungkiat, R. Wüchner, and K. U. Bletzinger, A wrinkling model based on material modification for isotropic and orthotropic membranes, Computer Methods in Applied Mechanics and Engineering, vol.197, pp.773-799, 2008.

P. Jetteur, . Bruyneel, and . Michaël, Advanced Capabilities for the Simulation of Membrane and Inflatable Space Structures Using SAMCEF, pp.211-231, 2008.

K. Karamcheti, Principles of Ideal-Fluid Aerodynamics, 1980.

J. Katz and A. Plotkin, Low speed aerodynamics, 2001.

L. Tallec, P. Mouro, and J. , Fluid structure interaction with large structural displacements, Computer methods in applied mechanics and engineering, vol.190, pp.3039-3067, 2001.

A. Le-van and C. Wielgosz, Bending and buckling of inflatable beam: some new theoretical results. Thin-Walled Structures, 2005.

R. Leloup, Model approach and numerical tool development for kite performance assesment and mechanical design; application to vessels auxiliary propulsion, 2014.

R. Leloup, K. Roncin, G. Blès, J. .. Lleroux, C. Jochum et al., Estimation par la méthode de ligne portante de l'effet d'un virage sur la finesse: application aux cerfs-volants de traction pour la propulsion auxiliaire des navires, 2012.

R. Leloup, K. Roncin, G. Bles, J. Leroux, C. Jochum et al., Estimation of the Lift-to-Drag ratio using the lifting line method: application to a leading edge inflatable kite, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00907082

R. Leloup, K. Roncin, M. Behrel, G. Bles, J. B. Leroux et al., A continuous and analytical modeling for kites as auxiliary propulsion devoted to merchant ships, including fuel saving estimation, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01282824

M. L. Loyd, Crosswind kite power (for large-scale wind power production), Journal of Energy, vol.4, issue.3, pp.106-111, 1980.

K. Lu, M. Accorsi, and J. Leonard, Finite element analysis of membrane wrinkling, International Journal for Numerical Methods in Engineering, vol.50, pp.1017-1038, 2001.

A. Maison, A. Nême, and J. Leroux, De la problèmatique du dimensionnement de grands kites, 2017.

S. Malpede and A. Baraldi, A fully integrated method for optimising fibermembrane sails, 3rd High Performance Yacht Design Conference, 2008.

C. Michler, S. J. Hulshoff, . Brummelen, E. H. Van, . Borst et al., A monolithic approach to fluid-structure interaction, Computer and Fluids, vol.33, issue.5-6, pp.839-848, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00450614

P. Naaijen, V. Koster, and R. P. Dallinga, On the power savings by an auxiliary kite propulsion system, 2006.

D. J. Olinger and J. S. Goela, Performance characteristics of a 1 kW Scale Kite-Powered System, Journal of Solar Energy Engineering, vol.132, issue.4, 2010.

J. G. Olivier, G. Janssens-maenhout, M. Muntean, and J. A. Peters, Trends in global CO 2 emissions, 2016.

N. Olmer, B. Comer, B. Roy, X. Mao, and D. Rutherford, Greenhouse gas emissions from global shipping, Tech. rept. International Council on Clean Transportation, 2013.

E. Oñate, F. G. Flores, and J. Marcipar, Membrane Structures Formed by Low pressure Inflatable Tubes. New analysis Methods and Recent Constructions, pp.163-196, 2008.

R. K. Pachauri and L. A. Meyer, Climate Change, Synthesis Report. Tech. rept. International Panel on Climate Change, 2014.

W. F. Phillips and D. O. Snyder, Modern adaptation of Prandtl's classic lifting-line theory, Journal of Aircraft, vol.37, issue.4, 2000.

G. Pocock, A treatise on the aeropleustic art, or Navigation in the air: by means of kites, or buoyant sails: with a description of the charvolant, 1827.

H. Schoop, L. Taenzer, and J. Hornig, Wrinkling of nonlinear membranes, Computational Mechanics, vol.29, issue.1, pp.68-74, 2002.

A. Scupi, E. J. Avital, D. Dinu, J. J. Williams, and A. Munjiza, Large Eddy Simulation of Flows Around a Kite Used as an Auxiliary Propulsion System, Journal of Fluids Engineering, issue.10, p.137, 2015.

D. Simulia, Abaqus Theory Guide v6, vol.14, 2014.

A. Solminihac, A. Nême, J. B. Leroux, K. Roncin, C. Jochum et al., Kite as a Beam -An analytical 3D Kite Tether Model, Book of Abstracts of the International Airborne Wind Energy Conference, 2015.

A. Solminihac, A. Nême, C. Duport, J. Leroux, K. Roncin et al., Airborne Wind Energy. Springer. Chap, vol.4, pp.77-95, 2018.

J. C. Stevenson, Traction kite testing and aerodynamics, 2003.

E. J. Terink, J. Breukels, R. Schmehl, and W. Ockels, Flight Dynamics and Stability of a Tethered Inflatable Kiteplane, Journal of Aircraft, vol.48, issue.2, 2011.

D. Trimarchi, S. R. Turnock, D. J. Taunton, and D. Chapelle, The use of shell elements to capture sail wrinkles, and their influence on aerodynamic loads, Second International Conference on Innovation in High Performance Sailing Yachts, 2010.

. Unctad, Review of maritime transport, 2017.

S. L. Veldman, Wrinkling prediction of cylindrical and conical inflated cantilever beams under torsion and bending, Thin-Walled Structures, vol.44, issue.4, pp.211-215, 2006.

S. L. Veldman, O. K. Bergsma, and A. Beukers, Bending of anisotropic inflated cylindrical beams. Thin-Walled Structures, vol.43, pp.461-475, 2004.

S. L. Veldman, Design and Analysis Methodologies for inflated Beams, 2005.

J. Wellicome, Some comments on the relative merits of various wind propulsion devices, Journal of Wing Engineering and Industrial Aerodynamics, vol.20, pp.111-142, 1985.

J. F. Wellicome and S. Wilkinson, Ship propulsive kites: an initial study, 1984.

P. Williams, B. Lansdorp, and W. Ockels, Flexible Tethered Kite with Moveable Attachment Points, Part I: Dynamics and Control, AIAA Atmospheric Flight Mechanics Conference and Exhibit, 2007.

P. Williams, B. Lansdorp, and W. Ockels, Flexible Tethered Kite with Moveable Attachment Points, Part II: State and Wind Estimation, AIAA Atmospheric Flight Mechanics Conference, vol.2, 2007.

P. Williams, B. Lansdorp, and W. Ockels, Modeling and Control of a Kite on a Variable Length Flexible Inelastic Tether, AIAA Modeling and Simulation Technologies Conference and Exhibit, 2007.

P. Williams, B. Lansdorp, R. Ruiterkamp, and W. Ockels, Modeling, Simulation, and Testing of Surf Kites for Power Generation, AIAA Modeling and Simulation Technologies Conference and Exhibit, 2008.

P. Williams, B. Lansdorp, and W. Ockels, Optimal crosswind towing and power generation with tethered kites, Journal of Guidance, control, and dynamics, vol.31, issue.1, pp.81-93, 2008.