AbstractAutonomous Underwater Vehicles (AUVs) are generally relying on Forward Looking SONAR (FLS) data to detect obstacles in front of the vehicle. Presence of obstacle is detected based on the amplitude of the echoed signal sensed by hydrophones. But acoustic signal loses its energy primarily due to transmission loss, absorption and scattering. Due to this, water column image of SONAR is of low contrast and noisy. So an effective preprocessing technique must be employed. This paper is concerned with denoising and contrast enhancement of the FLS image to fortify detection of obstacles. Adaptive dynamic stochastic resonance (SR) has been applied in wavelet domain to enhance the regions of interest (ROI), preceded by the application of Lee f...
For high-resolution side scan sonar images, accurate and fast segmentation of sonar images is crucia...
Underwater acoustic images are captured by sonar technology which uses sound as a source. The noise ...
The submarine exploration using robots has been increasing in recent years. The automation of tasks ...
AbstractAutonomous Underwater Vehicles (AUVs) are generally relying on Forward Looking SONAR (FLS) d...
In this paper, we present methods for segmenting noisy two-dimensional forward-scan sonar images and...
The key of real-time obstacle avoidance for AUV is to accurately and fast identify underwater obstac...
AbstractWith the advancement of technology, the imaging sonars have become the reality and their usa...
Sonar imaging is considered the only feasible sensing solution for underwater investigations by auto...
Forward-looking sonar is widely used in underwater obstacles and objects detection for navigational ...
International audienceWe propose an automatic sea surface object detection from forward lookingsonar...
Obstacle recognition is one of the key technologies for Unmanned Undersea Vehicle (UUV). In this pap...
The development of AUVs represents one of the latest great achievements of engineering and science f...
The key of autonomous underwater vehicle to perform a variety of missions in complex sea environment...
An adaptive approach is proposed to denoise and detect the underwater sonar image in this paper. Fir...
International audienceThis paper presents an automatic sea surface object clustering and tracking in...
For high-resolution side scan sonar images, accurate and fast segmentation of sonar images is crucia...
Underwater acoustic images are captured by sonar technology which uses sound as a source. The noise ...
The submarine exploration using robots has been increasing in recent years. The automation of tasks ...
AbstractAutonomous Underwater Vehicles (AUVs) are generally relying on Forward Looking SONAR (FLS) d...
In this paper, we present methods for segmenting noisy two-dimensional forward-scan sonar images and...
The key of real-time obstacle avoidance for AUV is to accurately and fast identify underwater obstac...
AbstractWith the advancement of technology, the imaging sonars have become the reality and their usa...
Sonar imaging is considered the only feasible sensing solution for underwater investigations by auto...
Forward-looking sonar is widely used in underwater obstacles and objects detection for navigational ...
International audienceWe propose an automatic sea surface object detection from forward lookingsonar...
Obstacle recognition is one of the key technologies for Unmanned Undersea Vehicle (UUV). In this pap...
The development of AUVs represents one of the latest great achievements of engineering and science f...
The key of autonomous underwater vehicle to perform a variety of missions in complex sea environment...
An adaptive approach is proposed to denoise and detect the underwater sonar image in this paper. Fir...
International audienceThis paper presents an automatic sea surface object clustering and tracking in...
For high-resolution side scan sonar images, accurate and fast segmentation of sonar images is crucia...
Underwater acoustic images are captured by sonar technology which uses sound as a source. The noise ...
The submarine exploration using robots has been increasing in recent years. The automation of tasks ...