The paper presents an extended version of the author’s Evolutionary Sets of Safe Ship Trajectories method. The method plans safe tracks of all ships involved in an encounter including speed reduction maneuvers, if necessary, and taking into account Rule 10 of COLREGS, which specifies ships’ behavior within Traffic Separation Schemes governed by IMO. The paper focuses on the evaluation phase of the evolutionary process and shows how fitness function is designed to compare various possible tracks as well as to assess the quality of a final solution. The impact of the fitness function on the method’s results is illustrated by examples
Ship routeing systems (e.g., traffic separation schemes) have been established worldwide to ensure s...
The paper is concerned with the problem of safe trajectory planning for approaching during emergency...
Designing tracks for torpedoes is a challenging task. Deployers are required to generate tracks that...
The Evolutionary Sets of Safe Ship Trajectories is a method solving ship encounter situations. The m...
This paper represents the first stage of research into a multi-objective method of planning safe tra...
For a given circumstance, i.e., a collision situation at sea, a decision support system for navigati...
AbstractThe paper introduces a new algorithmic approach for ship's safe path planning. A new method ...
This article presents a new integrated multi-objective optimisation algorithm and its application to...
Ship collision-avoidance trajectory planning aims at searching for a theoretical safe-critical traje...
This paper presents the problem of determining a safe ship trajectory in a restricted area. The rout...
This article presents the use of a multi‐population distributed evolutionary algorithm for path plan...
High accuracy navigation and surveillance systems are pivotal to ensure efficient ship route plannin...
Determining the most optimum route is a crucial factor in ship operation in terms of technical and e...
Recently, there has been an increased focus on developing an autonomous shipping technology that is ...
Artificial intelligence is an enabling technology for autonomous surface vehicles, with methods such...
Ship routeing systems (e.g., traffic separation schemes) have been established worldwide to ensure s...
The paper is concerned with the problem of safe trajectory planning for approaching during emergency...
Designing tracks for torpedoes is a challenging task. Deployers are required to generate tracks that...
The Evolutionary Sets of Safe Ship Trajectories is a method solving ship encounter situations. The m...
This paper represents the first stage of research into a multi-objective method of planning safe tra...
For a given circumstance, i.e., a collision situation at sea, a decision support system for navigati...
AbstractThe paper introduces a new algorithmic approach for ship's safe path planning. A new method ...
This article presents a new integrated multi-objective optimisation algorithm and its application to...
Ship collision-avoidance trajectory planning aims at searching for a theoretical safe-critical traje...
This paper presents the problem of determining a safe ship trajectory in a restricted area. The rout...
This article presents the use of a multi‐population distributed evolutionary algorithm for path plan...
High accuracy navigation and surveillance systems are pivotal to ensure efficient ship route plannin...
Determining the most optimum route is a crucial factor in ship operation in terms of technical and e...
Recently, there has been an increased focus on developing an autonomous shipping technology that is ...
Artificial intelligence is an enabling technology for autonomous surface vehicles, with methods such...
Ship routeing systems (e.g., traffic separation schemes) have been established worldwide to ensure s...
The paper is concerned with the problem of safe trajectory planning for approaching during emergency...
Designing tracks for torpedoes is a challenging task. Deployers are required to generate tracks that...