Hunting Sea Mines with UUV-Based Magnetic and Electro-Optic Sensors

The US Navy (USN) has recognized the need for effective buried-mine hunting as one of its Organic Mine Countermeasures (MCM) Future Naval Capabilities. Current thinking envisions a two-step process for identifying buried mines. First, an initial survey, or Search-Classify-Map (SCM) mission, will be...

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Hauptverfasser:	Sulzberger, G, Bono, J, Manley, R J, Clem, T, Vaizer, L, Holtzapple, R
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Sprache:	eng
Schlagworte:	BURIED OBJECTS CLASSIFICATION DATA FUSION DETECTORS Electrooptical and Optoelectronic Devices ELECTROOPTICS GRADIOMETERS IDENTIFICATION MAGNETIC DETECTORS MAGNETIC MOMENTS MINE COUNTERMEASURES MINES(ORDNANCE) NAVAL MINES NAVY OPTIMIZATION PASSIVE SYSTEMS POSITION(LOCATION) PROCESSING REAL TIME SELF OPERATION SENSOR FUSION Submarine Engineering SYNTHETIC APERTURE SONAR TARGET CLASSIFICATION TARGETS TRACKING Underwater Ordnance UNDERWATER VEHICLES UNMANNED
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creator	Sulzberger, G Bono, J Manley, R J Clem, T Vaizer, L Holtzapple, R
description	The US Navy (USN) has recognized the need for effective buried-mine hunting as one of its Organic Mine Countermeasures (MCM) Future Naval Capabilities. Current thinking envisions a two-step process for identifying buried mines. First, an initial survey, or Search-Classify-Map (SCM) mission, will be performed using low-frequency synthetic aperture sonar (SAS). Second, a Reacquire-and-Identify (RI) mission will provide confirmatory final classification by reacquiring the target, at close range, with magnetic, acoustic, and electro-optic sensors, and evaluating properties such as geometric details and magnetic moment that can be fused to identify or definitively classify the object. The goal is to demonstrate a robust capability to identify buried sea mines through sensor fusion. Specifically, the classification results of a passive magnetic sensor and an electrooptic sensor will be generated for fusion with the results from a short-range bottom-looking sonar, with all three sensors coresiding and operating simultaneously on an Unmanned Underwater Vehicle (UUV). The Bluefin12 Buried Mine Identification (BMI) System will be used as the platform to develop a capability for the identification of buried mines. This system houses the bottom looking sonar, the Real-time Tracking Gradiometer (RTG), and an Electro-Optic Imager (EOI). This paper will address the applications of the RTG, EOI, and data fusion results with bottom looking sonar. The objective for the RTG is the enhancement of the processing that extracts target locations and magnetic moments from the raw RTG data. In particular, we are adding a capability to conduct real-time processing capability to provide autonomous target classification and localization results soon after the UUV passes the target, while the system is still performing the mission. These results will be shared with the vehicle or other tr See also ADM202806. Published in the Proceedings of the Oceans 2009 MTS/IEEE Conference held in Biloxi, Mississippi on 26-29 October 2009. Copyright belongs to the Marine Technology Society., The original document contains color images.
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Current thinking envisions a two-step process for identifying buried mines. First, an initial survey, or Search-Classify-Map (SCM) mission, will be performed using low-frequency synthetic aperture sonar (SAS). Second, a Reacquire-and-Identify (RI) mission will provide confirmatory final classification by reacquiring the target, at close range, with magnetic, acoustic, and electro-optic sensors, and evaluating properties such as geometric details and magnetic moment that can be fused to identify or definitively classify the object. The goal is to demonstrate a robust capability to identify buried sea mines through sensor fusion. Specifically, the classification results of a passive magnetic sensor and an electrooptic sensor will be generated for fusion with the results from a short-range bottom-looking sonar, with all three sensors coresiding and operating simultaneously on an Unmanned Underwater Vehicle (UUV). The Bluefin12 Buried Mine Identification (BMI) System will be used as the platform to develop a capability for the identification of buried mines. This system houses the bottom looking sonar, the Real-time Tracking Gradiometer (RTG), and an Electro-Optic Imager (EOI). This paper will address the applications of the RTG, EOI, and data fusion results with bottom looking sonar. The objective for the RTG is the enhancement of the processing that extracts target locations and magnetic moments from the raw RTG data. In particular, we are adding a capability to conduct real-time processing capability to provide autonomous target classification and localization results soon after the UUV passes the target, while the system is still performing the mission. These results will be shared with the vehicle or other tr See also ADM202806. Published in the Proceedings of the Oceans 2009 MTS/IEEE Conference held in Biloxi, Mississippi on 26-29 October 2009. 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The Bluefin12 Buried Mine Identification (BMI) System will be used as the platform to develop a capability for the identification of buried mines. This system houses the bottom looking sonar, the Real-time Tracking Gradiometer (RTG), and an Electro-Optic Imager (EOI). This paper will address the applications of the RTG, EOI, and data fusion results with bottom looking sonar. The objective for the RTG is the enhancement of the processing that extracts target locations and magnetic moments from the raw RTG data. In particular, we are adding a capability to conduct real-time processing capability to provide autonomous target classification and localization results soon after the UUV passes the target, while the system is still performing the mission. These results will be shared with the vehicle or other tr See also ADM202806. Published in the Proceedings of the Oceans 2009 MTS/IEEE Conference held in Biloxi, Mississippi on 26-29 October 2009. 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Current thinking envisions a two-step process for identifying buried mines. First, an initial survey, or Search-Classify-Map (SCM) mission, will be performed using low-frequency synthetic aperture sonar (SAS). Second, a Reacquire-and-Identify (RI) mission will provide confirmatory final classification by reacquiring the target, at close range, with magnetic, acoustic, and electro-optic sensors, and evaluating properties such as geometric details and magnetic moment that can be fused to identify or definitively classify the object. The goal is to demonstrate a robust capability to identify buried sea mines through sensor fusion. Specifically, the classification results of a passive magnetic sensor and an electrooptic sensor will be generated for fusion with the results from a short-range bottom-looking sonar, with all three sensors coresiding and operating simultaneously on an Unmanned Underwater Vehicle (UUV). The Bluefin12 Buried Mine Identification (BMI) System will be used as the platform to develop a capability for the identification of buried mines. This system houses the bottom looking sonar, the Real-time Tracking Gradiometer (RTG), and an Electro-Optic Imager (EOI). This paper will address the applications of the RTG, EOI, and data fusion results with bottom looking sonar. The objective for the RTG is the enhancement of the processing that extracts target locations and magnetic moments from the raw RTG data. In particular, we are adding a capability to conduct real-time processing capability to provide autonomous target classification and localization results soon after the UUV passes the target, while the system is still performing the mission. These results will be shared with the vehicle or other tr See also ADM202806. Published in the Proceedings of the Oceans 2009 MTS/IEEE Conference held in Biloxi, Mississippi on 26-29 October 2009. 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subjects	BURIED OBJECTS CLASSIFICATION DATA FUSION DETECTORS Electrooptical and Optoelectronic Devices ELECTROOPTICS GRADIOMETERS IDENTIFICATION MAGNETIC DETECTORS MAGNETIC MOMENTS MINE COUNTERMEASURES MINES(ORDNANCE) NAVAL MINES NAVY OPTIMIZATION PASSIVE SYSTEMS POSITION(LOCATION) PROCESSING REAL TIME SELF OPERATION SENSOR FUSION Submarine Engineering SYNTHETIC APERTURE SONAR TARGET CLASSIFICATION TARGETS TRACKING Underwater Ordnance UNDERWATER VEHICLES UNMANNED
title	Hunting Sea Mines with UUV-Based Magnetic and Electro-Optic Sensors
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