AbstractThe paper describes methods based on the branch-and-bound method, dynamic programming and genetic algorithm to determine a safe ship trajectories in the collision situation in fuzzy environment. Optimal safe ship trajectory in collision situation is presented as multistage decision-making in a fuzzy environment. The maneuverability parameters of the ship and the navigator's subjective assessment in making a decision are taken under consideration in the process model
The application of fuzzy logic is an effective approach to a variety of circumstances, including sol...
Despite the generally high qualifications of seafarers, many maritime accidents are caused by human ...
Decision making in collision avoidance is one of the major problems in ship manoeuvring. The basis o...
AbstractThe paper describes methods based on the branch-and-bound method, dynamic programming and ge...
Ship collisions cause major losses in terms of property, equipment, and human lives. Therefore, more...
Collisions at sea are frequently caused by human-related factors, such as; manoeuvre timing mistakes...
This paper presents the problem of determining a safe ship trajectory in a restricted area. The rout...
The development of soft computing techniques in recent years has encouraged researchers to study on ...
AbstractThe paper introduces a new algorithmic approach for ship's safe path planning. A new method ...
With vigorous development of the maritime trade, many intelligent algorithms have been proposed to a...
The paper describes six methods of optimal and game theory and artificial neural network for synthes...
Ship collision-avoidance trajectory planning aims at searching for a theoretical safe-critical traje...
For a given circumstance, i.e., a collision situation at sea, a decision support system for navigati...
Despite the generally high qualifications of seafarers, many maritime accidents are caused by human ...
This paper presents an application of selected methods of optimal and game control theory to determi...
The application of fuzzy logic is an effective approach to a variety of circumstances, including sol...
Despite the generally high qualifications of seafarers, many maritime accidents are caused by human ...
Decision making in collision avoidance is one of the major problems in ship manoeuvring. The basis o...
AbstractThe paper describes methods based on the branch-and-bound method, dynamic programming and ge...
Ship collisions cause major losses in terms of property, equipment, and human lives. Therefore, more...
Collisions at sea are frequently caused by human-related factors, such as; manoeuvre timing mistakes...
This paper presents the problem of determining a safe ship trajectory in a restricted area. The rout...
The development of soft computing techniques in recent years has encouraged researchers to study on ...
AbstractThe paper introduces a new algorithmic approach for ship's safe path planning. A new method ...
With vigorous development of the maritime trade, many intelligent algorithms have been proposed to a...
The paper describes six methods of optimal and game theory and artificial neural network for synthes...
Ship collision-avoidance trajectory planning aims at searching for a theoretical safe-critical traje...
For a given circumstance, i.e., a collision situation at sea, a decision support system for navigati...
Despite the generally high qualifications of seafarers, many maritime accidents are caused by human ...
This paper presents an application of selected methods of optimal and game control theory to determi...
The application of fuzzy logic is an effective approach to a variety of circumstances, including sol...
Despite the generally high qualifications of seafarers, many maritime accidents are caused by human ...
Decision making in collision avoidance is one of the major problems in ship manoeuvring. The basis o...