Autonomous underwater vehicles (AUVs) are unmanned vehicles that operate underwater. These vehicles can be used for various operations, including scanning the ocean floor in order to search for objects. In such operations, the AUV navigates close to the ocean floor, using its sonar systems to map this ocean floor. Before an AUV is launched on a search operation, usually very little is known about the underwater conditions at the search location. Currently, the AUV’s coverage path is often defined before the start of the operation. However, the coverage path depends on the quality of the sonar images, which in turn depend on the unknown and varying underwater conditions. Therefore, it is unlikely that the predefined coverage path is optimal....
Abstract — This paper proposes a coverage path planning (CPP) method for inspection of 3D natural st...
This thesis presents a technique for adaptively mapping features in the ocean using an autonomous un...
Accurate navigation is a fundamental requirement for robotic systems—marine and terrestrial. For an ...
This thesis proposes new methods to find collision-free paths allowing an AUV to cover an area of th...
This article presents the information concerning aspects of the autonomous underwater vehicle (AUV) ...
Area coverage and robot navigation are two important research fields within robotics. However, thei...
We present a novel method for planning coverage paths for inspecting complex structures on the ocean...
We present a novel method for planning coverage paths for inspecting complex structures on the ocean...
Bathymetric mapping with Autonomous Underwater Vehicles (AUVs) receives increased attentions in rece...
This thesis presents an autonomous approach of 3-D coverage of underwater terrain using multi-level ...
Thesis (Master's)--University of Washington, 2013The motivations of oceanographic research have driv...
Under this project research and development work is carried out to introduce on-board intelligence f...
Seafloor survey is an important practice for both defense and scientific purposes. Often time, we co...
Path planning is a key technology for autonomous underwater vehicle (AUV) navigation. With the empha...
Coverage path planning methodology for an autonomous underwater vehicle to search multiple non-overl...
Abstract — This paper proposes a coverage path planning (CPP) method for inspection of 3D natural st...
This thesis presents a technique for adaptively mapping features in the ocean using an autonomous un...
Accurate navigation is a fundamental requirement for robotic systems—marine and terrestrial. For an ...
This thesis proposes new methods to find collision-free paths allowing an AUV to cover an area of th...
This article presents the information concerning aspects of the autonomous underwater vehicle (AUV) ...
Area coverage and robot navigation are two important research fields within robotics. However, thei...
We present a novel method for planning coverage paths for inspecting complex structures on the ocean...
We present a novel method for planning coverage paths for inspecting complex structures on the ocean...
Bathymetric mapping with Autonomous Underwater Vehicles (AUVs) receives increased attentions in rece...
This thesis presents an autonomous approach of 3-D coverage of underwater terrain using multi-level ...
Thesis (Master's)--University of Washington, 2013The motivations of oceanographic research have driv...
Under this project research and development work is carried out to introduce on-board intelligence f...
Seafloor survey is an important practice for both defense and scientific purposes. Often time, we co...
Path planning is a key technology for autonomous underwater vehicle (AUV) navigation. With the empha...
Coverage path planning methodology for an autonomous underwater vehicle to search multiple non-overl...
Abstract — This paper proposes a coverage path planning (CPP) method for inspection of 3D natural st...
This thesis presents a technique for adaptively mapping features in the ocean using an autonomous un...
Accurate navigation is a fundamental requirement for robotic systems—marine and terrestrial. For an ...