Add to ORKGMany types of sonar systems have been designed for exploring and surveying the sea bed and for identifying and characterising sediments. These include the conventional depth sounder, sidescan sonar, sector-scanning sonar, synthetic aperture sonar, sub-bottom profiler, seismic profiler and parametrio sonar. The features, advantages and disadvantages of these are described and some ideas for future research are presented
Sidescan high-frequency (HF) sonar (i.e., with frequencies higher than 100 kHz) is ideally suited fo...
The long-term objective of this research is to develop a theoretical foundation for the design of ne...
Seabed mapping has become vital for effective management of marine resources. An important role in m...
2Over the last ten years, the high-resolution marine geophysical survey field has witnessed signific...
The marine acoustic techniques are powerful tools to investigate and identify the seabed objects by ...
This thesis describes the work carried out in the development and testing of parametric sonar system...
Seafloor measurements using single-beam, multi-beam, sub-bottom, and side-scan sonars which enable d...
The purpose of this article is to offer a response to some of the requirements, indicated in previou...
Over the past few years there have been remarkable and concomitant advances in sonar technology, pos...
Acoustic seabed classification is becoming increasingly important for many fields, including marine ...
Single beam acoustic ground discrimination systems (AGDS) based on standard, echo sounders are routi...
This paper examines the potential for remote classification of seafloor terrains using a combination...
The Multi-Beam Array Sonar Survey System is a revolutionary new bathymetric charting system in use b...
Several underwater tasks require detail visualisation of a water space and bottom features. Search a...
The increased use of sonar surveys for both industrial and leisure activities has motivated the rese...
Sidescan high-frequency (HF) sonar (i.e., with frequencies higher than 100 kHz) is ideally suited fo...
The long-term objective of this research is to develop a theoretical foundation for the design of ne...
Seabed mapping has become vital for effective management of marine resources. An important role in m...
2Over the last ten years, the high-resolution marine geophysical survey field has witnessed signific...
The marine acoustic techniques are powerful tools to investigate and identify the seabed objects by ...
This thesis describes the work carried out in the development and testing of parametric sonar system...
Seafloor measurements using single-beam, multi-beam, sub-bottom, and side-scan sonars which enable d...
The purpose of this article is to offer a response to some of the requirements, indicated in previou...
Over the past few years there have been remarkable and concomitant advances in sonar technology, pos...
Acoustic seabed classification is becoming increasingly important for many fields, including marine ...
Single beam acoustic ground discrimination systems (AGDS) based on standard, echo sounders are routi...
This paper examines the potential for remote classification of seafloor terrains using a combination...
The Multi-Beam Array Sonar Survey System is a revolutionary new bathymetric charting system in use b...
Several underwater tasks require detail visualisation of a water space and bottom features. Search a...
The increased use of sonar surveys for both industrial and leisure activities has motivated the rese...
Sidescan high-frequency (HF) sonar (i.e., with frequencies higher than 100 kHz) is ideally suited fo...
The long-term objective of this research is to develop a theoretical foundation for the design of ne...
Seabed mapping has become vital for effective management of marine resources. An important role in m...