Coverage path planning methodology for an autonomous underwater vehicle to search multiple non-overlapping regions has been proposed in the paper. The proposed methodology is based on the genetic algorithm (GA). The GA used in the proposed methodology has been tuned for the specific problem, using design of experiment on an equivalent travelling salesman problem benchmark instance. Optimality of the generated paths was analysed through simulation studies. Results indicated that the proposed methodology generated shorter paths in comparison to conventional methods
. This paper addresses adaptive, on-line path planning of an autonomous underwater vehicle and prese...
In the last decades, sea protection and monitoring have been a central topic in the underwater robot...
Abstract:- Part of a research project on cooperative marine robotics is the scenario of a submarine ...
Abstract—This paper describes a genetic algorithm for solving the traveling salesman problem (TSP) f...
This paper describes a genetic algorithm for solving the traveling salesman problem (TSP) for autono...
Summarization: This paper presents a complete methodology for mission planning and navigation of aut...
Autonomous underwater vehicles (AUVs) are unmanned vehicles that operate underwater. These vehicles ...
Path planning can be viewed as an optimization process in which an optimum path between two points i...
Following the development of autonomous underwater vehicles (AUVs), multiple trajectory-based submar...
Path planning algorithm is one of the core algorithms for autonomous underwater vehicle (AUV) to com...
When using autonomous marine vehicles (AMVs) collecting seabed or hydrologicaldata, the algorithm of...
Path planning is a key technology for autonomous underwater vehicle (AUV) navigation. With the empha...
This paper proposes a new immune genetic algorithm and applies it to generate local paths for an aut...
Recent technological developments have paved the way to the employment of Autonomous Underwater Vehi...
Recent technological developments have paved the way to the employment of Autonomous Underwater Vehi...
. This paper addresses adaptive, on-line path planning of an autonomous underwater vehicle and prese...
In the last decades, sea protection and monitoring have been a central topic in the underwater robot...
Abstract:- Part of a research project on cooperative marine robotics is the scenario of a submarine ...
Abstract—This paper describes a genetic algorithm for solving the traveling salesman problem (TSP) f...
This paper describes a genetic algorithm for solving the traveling salesman problem (TSP) for autono...
Summarization: This paper presents a complete methodology for mission planning and navigation of aut...
Autonomous underwater vehicles (AUVs) are unmanned vehicles that operate underwater. These vehicles ...
Path planning can be viewed as an optimization process in which an optimum path between two points i...
Following the development of autonomous underwater vehicles (AUVs), multiple trajectory-based submar...
Path planning algorithm is one of the core algorithms for autonomous underwater vehicle (AUV) to com...
When using autonomous marine vehicles (AMVs) collecting seabed or hydrologicaldata, the algorithm of...
Path planning is a key technology for autonomous underwater vehicle (AUV) navigation. With the empha...
This paper proposes a new immune genetic algorithm and applies it to generate local paths for an aut...
Recent technological developments have paved the way to the employment of Autonomous Underwater Vehi...
Recent technological developments have paved the way to the employment of Autonomous Underwater Vehi...
. This paper addresses adaptive, on-line path planning of an autonomous underwater vehicle and prese...
In the last decades, sea protection and monitoring have been a central topic in the underwater robot...
Abstract:- Part of a research project on cooperative marine robotics is the scenario of a submarine ...