This paper presents a basic experiment platform to monitor coastline using unmanned surface vessel. This platform has two operating mode, manual work for release and automation for patrol. By swarm intelligent formation control and hunting strategy developed, we can use these methods for the monitor platform. The platform contains control system, sensor system, communication system. The USV (unmanned surface vessel) in the platform can patrol to ensure if there are dangerous situations in the area. They can switch mode to suit for different situation. In this paper, we design the platform system and manufacture the USV. We plan to use out USV to prove the platform
Unmanned Surface Vehicles (USVs) are a class of autonomous platforms, capable of collecting data fro...
In this paper, we outline a low cost multi-robot autonomous platform for a broad set of applications...
One of the factors that caused the hijacking of ships was the lack of a security system in sailing. ...
The paper presents design, structure and architecture of the Universal Autonomous Control and Manage...
The transmission of deep sea and offshore data has historically been a hard problem to solve. To cop...
Unmanned Surface Vehicle (USV) has been used in many different areas including water monitoring, bat...
In the last few years, Unmanned Aircraft Systems (UAS) have become more important and its use for di...
The existing maritime cruising system mainly uses manned motorboats to monitor the quality of coasta...
Because of extreme weather and frequent natural disasters, improvement of disaster prevention capabi...
Autonomous unmanned surface vehicle (USV) has great potentials in many applications such as water qu...
Recent technology developments have turned present-day unmanned systems into realistic alternatives ...
This work details the design, development, and testing of the autonomous surface vessel, the SeaSlug...
Securing harbors and coastlines includes the task of monitoring and detecting people or vehicles att...
This project is the result of five months of work at OsloMet (Oslo Metropolitan Univeristy), where I...
This paper introduces an unmanned aircraft vehicle (multicopter) for coastal applications. This veh...
Unmanned Surface Vehicles (USVs) are a class of autonomous platforms, capable of collecting data fro...
In this paper, we outline a low cost multi-robot autonomous platform for a broad set of applications...
One of the factors that caused the hijacking of ships was the lack of a security system in sailing. ...
The paper presents design, structure and architecture of the Universal Autonomous Control and Manage...
The transmission of deep sea and offshore data has historically been a hard problem to solve. To cop...
Unmanned Surface Vehicle (USV) has been used in many different areas including water monitoring, bat...
In the last few years, Unmanned Aircraft Systems (UAS) have become more important and its use for di...
The existing maritime cruising system mainly uses manned motorboats to monitor the quality of coasta...
Because of extreme weather and frequent natural disasters, improvement of disaster prevention capabi...
Autonomous unmanned surface vehicle (USV) has great potentials in many applications such as water qu...
Recent technology developments have turned present-day unmanned systems into realistic alternatives ...
This work details the design, development, and testing of the autonomous surface vessel, the SeaSlug...
Securing harbors and coastlines includes the task of monitoring and detecting people or vehicles att...
This project is the result of five months of work at OsloMet (Oslo Metropolitan Univeristy), where I...
This paper introduces an unmanned aircraft vehicle (multicopter) for coastal applications. This veh...
Unmanned Surface Vehicles (USVs) are a class of autonomous platforms, capable of collecting data fro...
In this paper, we outline a low cost multi-robot autonomous platform for a broad set of applications...
One of the factors that caused the hijacking of ships was the lack of a security system in sailing. ...