Described is a system for neutralising underwater explosive devices including an apparatus for identifying a naval mine, a source for emitting an acoustic signal for signalling the position of the naval mine, a first underwater vehicle designed to place the source for emitting an acoustic signal close to the naval mine, a measurement apparatus designed to determine a first distance between the source of emission of an acoustic signal and the naval mine.

Described is a system for neutralising underwater explosive devices including an apparatus for identifying a naval mine, a source for emitting an acoustic signal for signalling the position of the naval mine, a first underwater vehicle designed to place the source for emitting an acoustic signal close to the naval mine, a measurement apparatus designed to determine a first distance between the source of emission of an acoustic signal and the naval mine.

A method comprising: providing an autonomous vehicle (AV) with a first estimated position of a target; directing the AV to travel toward the first estimated position at a constant velocity; receiving echo signals of transmitted sonar signals, the echo signals indicating a range and an azimuth of the target; determining a depth difference of the AV and the target based on the received echo signals, the depth difference being determined based on changes to the range and azimuth of the target over time; and in response to a depth difference existing, re-directing the AV toward a second estimated position of the target generated from the depth difference.

A method comprising: providing an autonomous vehicle (AV) with a first estimated position of a target; directing the AV to travel toward the first estimated position at a constant velocity; receiving echo signals of transmitted sonar signals, the echo signals indicating a range and an azimuth of the target; determining a depth difference of the AV and the target based on the received echo signals, the depth difference being determined based on changes to the range and azimuth of the target over time; and in response to a depth difference existing, re-directing the AV toward a second estimated position of the target generated from the depth difference.

Methods and apparatus for inspecting an underwater vehicle. In embodiments, a system receives a SAR image for at least a portion of an exterior surface of an underwater vehicle and performs CCD processing to compare a baseline SAS image for the underwater vehicle with the received SAR image of the underwater vehicle to generate a CCD output corresponding to a measure of similarity of the baseline SAS image and the received SAS image. The system determines whether there was tampering of the underwater vehicle based on the measure of similarity.

Methods and apparatus for inspecting an underwater vehicle. In embodiments, a system receives a SAR image for at least a portion of an exterior surface of an underwater vehicle and performs CCD processing to compare a baseline SAS image for the underwater vehicle with the received SAR image of the underwater vehicle to generate a CCD output corresponding to a measure of similarity of the baseline SAS image and the received SAS image. The system determines whether there was tampering of the underwater vehicle based on the measure of similarity.

Methods and apparatus for inspecting an underwater vehicle. In embodiments, a system receives a SAR image for at least a portion of an exterior surface of an underwater vehicle and performs CCD processing to compare a baseline SAS image for the underwater vehicle with the received SAR image of the underwater vehicle to generate a CCD output corresponding to a measure of similarity of the baseline SAS image and the received SAS image. The system determines whether there was tampering of the underwater vehicle based on the measure of similarity.

Methods and apparatus for inspecting an underwater vehicle. In embodiments, a system receives a SAR image for at least a portion of an exterior surface of an underwater vehicle and performs CCD processing to compare a baseline SAS image for the underwater vehicle with the received SAR image of the underwater vehicle to generate a CCD output corresponding to a measure of similarity of the baseline SAS image and the received SAS image. The system determines whether there was tampering of the underwater vehicle based on the measure of similarity.

Described is a system for neutralising underwater explosive devices including an apparatus for identifying a naval mine, a source for emitting an acoustic signal for signalling the position of the naval mine, a first underwater vehicle designed to place the source for emitting an acoustic signal close to the naval mine, a measurement apparatus designed to determine a first distance between the source of emission of an acoustic signal and the naval mine.

Described is a system for neutralising underwater explosive devices including an apparatus for identifying a naval mine, a source for emitting an acoustic signal for signalling the position of the naval mine, a first underwater vehicle designed to place the source for emitting an acoustic signal close to the naval mine, a measurement apparatus designed to determine a first distance between the source of emission of an acoustic signal and the naval mine.