[1. Ankudinov V., Kobylinski L. K., Review of Ability to Simulate Azimuthing Device Interactions, AZIPILOT 2., Deliverable 2.3., Public.pdf, www.transport-research.info, 2012.]Search in Google Scholar
[2. Brandner P. Renilson M. Interaction Between Two Closely Spaced Azimuthing Thrusters, Journal of Ship Research, v.42, 1998.10.5957/jsr.1998.42.1.15]Search in Google Scholar
[3. Brix J. (Ed.), Manoeuvring Technical Manual, Seehafen Verlag GmbH, Hamburg, 1993.]Search in Google Scholar
[4. Carlton J. Marine Propellers and Propulsion, Butterworth and Heinemann, Burlington, 2007.10.1016/B978-075068150-6/50004-8]Search in Google Scholar
[5. Gierusz W., Simulation model of the ship-handling training boat ,,Blue Lady’’, Int. IFAC Conference Control Applications in Marine Systems CAMS’01, Glasgow, Scotland, 2001.10.1016/S1474-6670(17)35092-9]Search in Google Scholar
[6. Grygorowicz M., Hydrodynamics Characteristics of the Isolated Pod Model for Two-pods Propulsion System (in Polish), Report WOiO 3/03/BZ, Gdansk University of Technology, 2003.]Search in Google Scholar
[7. Inoue S. , Hirano M. , Kijima K., Hydrodynamic Derivatives on Ship Manoeuvring, International Shipbuilding Progress, 1981.10.3233/ISP-1981-2832103]Search in Google Scholar
[8. Inoue S., Hirano M.,Kijima K. ,Takashina J., Practical Calculation Method of Ship Manoeuvering Motion, International Shipbuilding Progress, 1981.10.3233/ISP-1981-2832502]Search in Google Scholar
[9. Kanar J., The Semi-empirical Method for Prediction of the Driving Characteristics of the Ships with Multi-podded Propulsion (in Polish), PhD Thesis, Gdansk University of Technology, Poland, 2009.]Search in Google Scholar
[10. Kose K., On a New Mathematical model of Manoeuvring Motions of a Ship and Its Applications, International Shipbuilding Progress, 1982.10.3233/ISP-1982-2933603]Search in Google Scholar
[11. Mello Petey de F., Advanced Podded Drive Simulation for Marine Training and Research, International Marine Safety Forum Meeting, Warnemuende, Germany, 2008.]Search in Google Scholar
[12. Molland A.F. ,Turnock S.R., Prediction of Ship- Rudder- Propeller Interaction at Low speeds and in Four Quadrants of Operation, Int. IFAC Conference on Manoeuvring and Control of Marine Craft MCMC’94, Southampton, UK, 1994.]Search in Google Scholar
[13. Ogawa A. , Kasai H, On the Mathematical Model of Manoeuvring Motion of Ships, International Shipbuilding Progress, 1978.10.3233/ISP-1978-2529202]Search in Google Scholar
[14. Reichel M., The Prediction of the Manoeuvring Characteristics of the Ships with Azimuthing Propulsion (in Polish), PhD Thesis, Gdansk University of Technology, Poland, 2011.]Search in Google Scholar
[15. Shouji K., Ishiguro T. , Mizoguchi S., Hydrodynamic Forces by Propeller and Rudder Interaction at Low Speed, Int. IFAC Conference MARSIM and ICSM, Tokyo, Japan, 1990.]Search in Google Scholar
[16. Woodward M., Control and Response of Pod Driven Ships, PhD Thesis, University of Newcastle-upon-Tyne, 2005.]Search in Google Scholar
[17. The Manoeuvring Committee. Final Report and Recommendations to the 23rd ITTC, Proc. of the 23rd International Towing Tank Conference, Venice, Italy, 2002.]Search in Google Scholar