In the last two decades, low-frequency active sonar (LFAS) emerged as one of the most efficient tools for shallow-water antisubmarine warfare (ASW). Like any long-range active sonar system, LFAS produces a large amount of unwanted sea bottom echoes or clutter. These echoes give way to false alarms that increase the computational load of target trackers and delay the correct classification of each echo. The number of false alarms due to clutter can be reduced either through echo classification techniques or through Doppler filtering provided the targets of interest have a nonzero radial velocity. Much research has been carried out on waveform investigation for the efficient use of bandwidth capabilities of modern sonar transmitters. Among th...
Transmitting waveform design and signal processing method optimization are effective ways to improve...
Active sonar systems are used in the detection and localization of underwater targets. While traditi...
Traditionally, active sonar systems employ an enveloped-continuous wave (CW) or linear-frequency mod...
Low Frequency Active Sonar (LFAS) systems are originally designed for ASW purposes. Although their m...
A high frequency experiment was conducted in the Woods Hole Harbor in Massachusetts to evaluate the ...
Abstract—The influence of transmitted waveforms on the signal-to-reverberation ratio (SRR) of a low-...
The use of high–resolution, active sonar systems in littoral environments often results in high fals...
In recent years the focus of anti-submarine warfare (ASW) has changed to more shallow operation area...
The majority of active sonar systems detect and classify a target based on the amplitude of the rece...
The end of the Cold War and the collapse of the Warsaw pact have resulted in a change of operational...
Active sonar performance is limited by noise, reverberation or false alarm rate (FAR). High FAR is o...
Abstract In active sonar systems, the detection of echo from targets can deteriorate due to reverber...
The end of the Cold War and the collapse of the Warsaw pact have resulted in a change of operational...
Thanks to technological advance, the bandwidth of sonar transducers has increased considerably the l...
Existing surveillance sonar systems for anti-submarine warfare (ASW) use a pulsed sonar deployed at ...
Transmitting waveform design and signal processing method optimization are effective ways to improve...
Active sonar systems are used in the detection and localization of underwater targets. While traditi...
Traditionally, active sonar systems employ an enveloped-continuous wave (CW) or linear-frequency mod...
Low Frequency Active Sonar (LFAS) systems are originally designed for ASW purposes. Although their m...
A high frequency experiment was conducted in the Woods Hole Harbor in Massachusetts to evaluate the ...
Abstract—The influence of transmitted waveforms on the signal-to-reverberation ratio (SRR) of a low-...
The use of high–resolution, active sonar systems in littoral environments often results in high fals...
In recent years the focus of anti-submarine warfare (ASW) has changed to more shallow operation area...
The majority of active sonar systems detect and classify a target based on the amplitude of the rece...
The end of the Cold War and the collapse of the Warsaw pact have resulted in a change of operational...
Active sonar performance is limited by noise, reverberation or false alarm rate (FAR). High FAR is o...
Abstract In active sonar systems, the detection of echo from targets can deteriorate due to reverber...
The end of the Cold War and the collapse of the Warsaw pact have resulted in a change of operational...
Thanks to technological advance, the bandwidth of sonar transducers has increased considerably the l...
Existing surveillance sonar systems for anti-submarine warfare (ASW) use a pulsed sonar deployed at ...
Transmitting waveform design and signal processing method optimization are effective ways to improve...
Active sonar systems are used in the detection and localization of underwater targets. While traditi...
Traditionally, active sonar systems employ an enveloped-continuous wave (CW) or linear-frequency mod...