AbstractThis paper presents a Swarm Intelligence (SI) application using Ant Colony Optimization (ACO) techniques in a navigational Decision Support System (DSS). The problem-solving capability of the system includes path planning and collision avoidance of a ship in the open sea as well as in restricted waters. The developed system enhances automation of the safe ship control pro- cess. It can also be employed in Unmanned Surface Vehicles (USVs) control system, what will contribute to enhancement of their autonomy. The following issues are introduced in this paper: the developed navigational DSS architecture and the path planning and collision avoidance problem definition. This paper will also present ACO principle and ACO based algorithm i...
This paper presents a multiobjective optimisation approach for path planning of autonomous surface v...
The paper presents results of ship's safe trajectory planning algorithms verification. Real navigati...
Ship collisions cause major losses in terms of property, equipment, and human lives. Therefore, more...
AbstractThis paper presents a Swarm Intelligence (SI) application using Ant Colony Optimization (ACO...
e-navigation. Maritime traffic is becoming more complex every day. At present, due to technological ...
The paper presents a new approach for solving a path planning problem for ships in the environment w...
AbstractThe paper introduces a new algorithmic approach for ship's safe path planning. A new method ...
Decision support systems constitute the focus of many studies in the maritime industry as vessel acc...
This study provides both a spherical understanding about autonomous ship navigation for collision av...
Artificial intelligence is an enabling technology for autonomous surface vehicles, with methods such...
ABSTRACT- This paper proposes an advanced navigation decision support system (NAVDEC) mainly to avoi...
Unmanned surface vehicles (USVs) are intelligent Marine vehicles which can navigate autonomously on ...
AbstractThe article describes the application of an ant algorithm to optimize parameters of the ship...
AbstractThe paper describes the application of selected methods of optimal control theory, game theo...
This paper presents a multiobjective optimisation approach for path planning of autonomous surface v...
This paper presents a multiobjective optimisation approach for path planning of autonomous surface v...
The paper presents results of ship's safe trajectory planning algorithms verification. Real navigati...
Ship collisions cause major losses in terms of property, equipment, and human lives. Therefore, more...
AbstractThis paper presents a Swarm Intelligence (SI) application using Ant Colony Optimization (ACO...
e-navigation. Maritime traffic is becoming more complex every day. At present, due to technological ...
The paper presents a new approach for solving a path planning problem for ships in the environment w...
AbstractThe paper introduces a new algorithmic approach for ship's safe path planning. A new method ...
Decision support systems constitute the focus of many studies in the maritime industry as vessel acc...
This study provides both a spherical understanding about autonomous ship navigation for collision av...
Artificial intelligence is an enabling technology for autonomous surface vehicles, with methods such...
ABSTRACT- This paper proposes an advanced navigation decision support system (NAVDEC) mainly to avoi...
Unmanned surface vehicles (USVs) are intelligent Marine vehicles which can navigate autonomously on ...
AbstractThe article describes the application of an ant algorithm to optimize parameters of the ship...
AbstractThe paper describes the application of selected methods of optimal control theory, game theo...
This paper presents a multiobjective optimisation approach for path planning of autonomous surface v...
This paper presents a multiobjective optimisation approach for path planning of autonomous surface v...
The paper presents results of ship's safe trajectory planning algorithms verification. Real navigati...
Ship collisions cause major losses in terms of property, equipment, and human lives. Therefore, more...