References
- 1. Acanfora M., Montewka J., Hinz T., Matusiak J. (2017): Towards realistic estimation of ship excessive motions in heavy weather. A case study of a containership in the Pacific Ocean. Ocean Eng., Vol. 138, 140–150.
- 2. Bijlsma S. J. (2008): Minimal Time Route Computation for Ships with Pre-Specified Voyage Fuel Consumption. J. Navig., Vol. 61, 723–733.
- 3. Chang Y., Tseng R., Chen G., Chu P. C. (2013): Ship Routing Utilizing Strong Ocean Currents. J. Navig., Vol. 66, 825–835.
- 4. Chen C., Shiotani S., Sasa K. (2013): Numerical ship navigation based on weather and ocean simulation. Ocean Eng., Vol. 69, 44–53.
- 5. Chen H. (2013): Weather routing versus voyage optimisation. Digit. Sh., 26–27.
- 6. Decò A., Frangopol D. M. (2015): Real-time risk of ship structures integrating structural health monitoring data: Application to multi-objective optimal ship routing. Ocean Eng., Vol. 96, 312–329.
- 7. Hagiwara H., Spaans J. A. (1987): Practical Weather Routing of Sail-assisted Motor Vessels. J. Navig., Vol. 40, 96–119.
- 8. Hinnenthal J., Clauss G. (2010): Robust Pareto-optimum routing of ships utilising deterministic and ensemble weather forecasts. Ships Offshore Struct., Vol. 5, 105–114.
- 9. James R.W. (1957): Application of wave forecast to marine navigation. US Naval Oceanographic Office, Washington.
- 10. Krata P., Szlapczynska J. (2018): Ship weather routing optimization with dynamic constraints based on reliable synchronous roll prediction. Ocean Eng., Vol. 150, 124–137.
- 11. Mannarini G., Coppini G., Oddo P., Pinardi N. (2013): A Prototype of Ship Routing Decision Support System for an Operational Oceanographic Service. TransNav, Int. J. Mar. Navig. Saf. Sea Transp., Vol. 7, 53–59.
- 12. Mannarini G., Pinardi N., Coppini G., Oddo P., Iafrati A., Nazionale I., Creti V. D. (2016): VISIR-I : small vessels – least-time nautical routes using wave forecasts. Geosci. Model Dev., Vol. 9, 1597–1625.
- 13. Marie S., Courteille E. (2013): Multi-Objective Optimization of Motor Vessel Route. Int. J. Mar. Navig. Saf. Seas Transp., Vol. 3, 133–141.
- 14. Motte R. H., Calvert S. (1990): On The Selection of Discrete Grid Systems for On-Board Micro-based Weather Routeing. J. Navig., Vol. 43, 104–117.
- 15. Natskår A., Moan T., Alvær P. O. (2015): Uncertainty in forecasted environmental conditions for reliability analyses of marine operations. Ocean Eng., Vol. 108, 636–647.
- 16. Perera L. P., Soares C. G. (2017): Weather routing and safe ship handling in the future of shipping. Ocean Eng., Vol. 130, 684–695.
- 17. Roulston M. S., Ellepola, J., von Hardenberg J., Smith L. A. (2005): Forecasting wave height probabilities with numerical weather prediction models. Ocean Eng., Vol. 32, 1841–1863.
- 18. Specht C., Rudnicki J. (2016): A Method for the Assessing of Reliability Characteristics Relevant to an Assumed Position-Fixing Accuracy in Navigational Positioning Systems. Polish Marit. Res., Vol. 23, 20–27.
- 19. Suzuki R., Tsukada Y., Tsujimoto M., Muraoka E., Ueno M. (2017): A study on high-lift rudder performance in adverse weather based on model tests under high propeller load. Ocean Eng., Vol. 136, 152–167.
- 20. Szlapczynska J. (2007): Multiobjective Approach to Weather Routing. TransNav - Int. J. Mar. Navig. Saf. Sea Transp., Vol. 1, 273–278.
- 21. Szlapczynska J. (2015): Multi-objective weather routing with customised criteria and constraints. J. Navig., Vol. 68.
- 22. Szlapczynski R., Krata P. (2018): Determining and visualizing safe motion parameters of a ship navigating in severe weather conditions. Ocean Eng., Vol. 158, 263–274.
- 23. Tagliaferri F., Viola I. M. (2017): A real-time strategy-decision program for sailing yacht races. Ocean Eng., Vol. 134, 129-139.
- 24. Tsou M.-C. (2010): Integration of a Geographic Information System and Evolutionary Computation for Automatic Routing in Coastal Navigation. J. Navig., Vol. 63, 323–341.
- 25. Vettor R., Guedes Soares C. (2015): Multi-objective Route Optimization for Onboard Decision Support System. 99–106.
- 26. Vettor R., Guedes Soares C. (2017): Characterisation of the expected weather conditions in the main European coastal traffic routes. Ocean Eng., Vol. 140, 244–257.
- 27. Vettor R., Soares C. G., Wo Y. (2017): Assessment of the Storm Avoidance Effect on the Wave Climate along the Main North Atlantic Routes. J. Navig., Vol. 69, 127–144.
- 28. Wei S., Zhou P. (2012): Development of a 3D Dynamic Programming Method for Weather Routing. Int. J. Mar. Navig. Saf. Sea Transp., Vol. 6, 79–85.
- 29. de Wit C. (1990): Proposal for Low Cost Ocean Weather Routeing. J. Navig., Vol. 43, 428–439.
- 30. Życzkowski M., Krata P., Szłapczyński R. (2018): Multi-objective weather routing of sailboats considering wave resistance. Polish Marit. Res., Vol. 25, 4–12.
- 31. Zyczkowski M., Szłapczyński R. (2017): Multi-Objective Weather Routing of Sailing Vessels. Polish Marit. Res., Vol. 24.
- 32. ROUTING project web-page, (n.d.).