Add to ORKGTo simulate the underwater environment and test algorithms for autonomous underwater vehicles, we developed an underwater simulation environment with the Unreal Engine 4 to generate underwater visual data such as seagrass and landscape. We then used such data from the Unreal environment to train and verify an underwater image segmentation model, which is an important technology to later achieve visual based navigation. The simulation environment shows the potentials for dataset generalization and testing robot vision algorithms
This paper describes the design and evaluation of a vision system conceived to provide perception in...
Despite making up 75 percent of the earth’s surface, only 5 percent of the ocean has been explored. ...
We present DAVE Aquatic Virtual Environment (DAVE), an open source simulation stack for underwater r...
This paper addresses an autonomous underwater vehicle (AUV) simulator with underwater image sonar an...
While self-driving cars and flying drones have dominated recent news headlines on robotics, advanced...
This paper presents a framework for simulating visually realistic motion of underwater Remotely Oper...
The development of computer vision algorithms for navigation or object detection is one of the key i...
A critical bottleneck exists in Autonomous Underwater Vehicle (AUV) design and development. It is tr...
The development of computer vision algorithms for navigation or object detection is one of the key i...
The development of computer vision algorithms for navigation or object detection is one of the key i...
This paper presents a framework for simulating visually realistic motion of underwater Remotely Oper...
Faculty Advisor: Junaed SattarResearchers working with autonomous underwater vehicles (AUVs) must be...
Underwater robotics depends heavily on good simulations, as experimental tests are costly, time-cons...
This paper shows the use of 3D virtual simulation, representing the actual object movement underwa...
Underwater robotic surveys can be costly due to the complex working environment and the need for var...
This paper describes the design and evaluation of a vision system conceived to provide perception in...
Despite making up 75 percent of the earth’s surface, only 5 percent of the ocean has been explored. ...
We present DAVE Aquatic Virtual Environment (DAVE), an open source simulation stack for underwater r...
This paper addresses an autonomous underwater vehicle (AUV) simulator with underwater image sonar an...
While self-driving cars and flying drones have dominated recent news headlines on robotics, advanced...
This paper presents a framework for simulating visually realistic motion of underwater Remotely Oper...
The development of computer vision algorithms for navigation or object detection is one of the key i...
A critical bottleneck exists in Autonomous Underwater Vehicle (AUV) design and development. It is tr...
The development of computer vision algorithms for navigation or object detection is one of the key i...
The development of computer vision algorithms for navigation or object detection is one of the key i...
This paper presents a framework for simulating visually realistic motion of underwater Remotely Oper...
Faculty Advisor: Junaed SattarResearchers working with autonomous underwater vehicles (AUVs) must be...
Underwater robotics depends heavily on good simulations, as experimental tests are costly, time-cons...
This paper shows the use of 3D virtual simulation, representing the actual object movement underwa...
Underwater robotic surveys can be costly due to the complex working environment and the need for var...
This paper describes the design and evaluation of a vision system conceived to provide perception in...
Despite making up 75 percent of the earth’s surface, only 5 percent of the ocean has been explored. ...
We present DAVE Aquatic Virtual Environment (DAVE), an open source simulation stack for underwater r...