Challenges in underwater navigation: Exploring magnetic sensors anomaly sensing and navigation

Djapic, Vladimir; Dong, Wei; Bulsara, Adi R.; Anderson, Greg W.

doi:10.1109/sas.2015.7133638

Cited by 4 publications

(2 citation statements)

References 8 publications

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“…Biomimetics focuses on natural sensors, which have evolved over billions of years, developing extreme efficiency, compactness, high responsivity, and throughput. Engineers employ a variety of sensing principles to imitate superficial neuromasts and canal neuromasts, such as the piezoresistive [19], capacitive [20], thermal [21], magnetic [22], piezoelectric [23], and optical [24] techniques. However, there is currently no analog to the sensor for AUV, because the type of processing and information extracted by the fish has yet to be discovered.…”

Section: Introductionmentioning

confidence: 99%

Robust Classification Method for Underwater Targets Using the Chaotic Features of the Flow Field

Xinghua

Qin

2020

JMSE

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Fish can sense their surrounding environment by their lateral line system (LLS). In order to understand the extent to which information can be derived via LLS and to improve the adaptive ability of autonomous underwater vehicles (AUVs), a novel strategy is presented, which directly uses the information of the flow field to distinguish the object obstacle. The flow fields around different targets are obtained by the numerical method, and the pressure signal on the virtual lateral line is studied based on the chaos theory and fast Fourier transform (FFT). The compounded parametric features, including the chaotic features (CF) and the power spectrum density (PSD), which is named CF-PSD, are used to recognize the kinds of obstacles. During the research of CF, the largest Lyapunov exponent (LLE), saturated correlation dimension (SCD), and Kolmogorov entropy (KE) are taken into account, and PSD features include the number, amplitude, and position of wave crests. A two-step support vector machine (SVM) is built and used to classify the shapes and incidence angles based on the CF-PSD. It is demonstrated that the flow fields around triangular and square targets are chaotic systems, and the new findings indicate that the object obstacle can be recognized directly based on the information of the flow field, and the consideration of a parametric feature extraction method (CF-PSD) results in considerably higher classification success.

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Section: Introductionmentioning

confidence: 99%

Robust Classification Method for Underwater Targets Using the Chaotic Features of the Flow Field

Xinghua

Qin

2020

JMSE

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“…Based on the biologists' studies of the lateral line system [12][13][14], some researchers have designed many artificial lateral line sensors. Such designs employ a variety of sensing principles, such as piezoresistive [15], capacitive [16], thermal [17], magnetic [18], piezoelectric [19], and optical techniques [20]. Hydrodynamics mainly focuses on the characteristics of the flow field around the target [21][22][23][24].…”

Section: Introductionmentioning

confidence: 99%

A Novel Obstacle Localization Method for an Underwater Robot Based on the Flow Field

Xinghua

Qin

2019

JMSE

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Because the underwater environment is complex, autonomous underwater vehicles (AUVs) have difficulty locating their surroundings autonomously. In order to improve the adaptive ability of AUVs, this paper presents a novel obstacle localization strategy based on the flow features. Like fish, the strategy uses the flow field information directly to locate the object obstacles. Two different localization methods are provided and compared. The first method, which is named the Method of Spatial Distribution (MSD), is based on the spatial distribution of the flow field. The second method, which is named the Method of Amplitude Variation (MAV), is provided by the amplitude variation of the flow field. The flow field around spherical targets is obtained by a numerical method, and both methods use the parallel velocity component on the virtual lateral line. During the study, different target numbers, detective ratios, spacing ratios, and flow velocities are taken into account. It is demonstrated that both methods are able to locate object obstacles. However, the prediction accuracy of MAV is higher than that of MSD. That implies that MAV is more robust than MSD. These new findings indicate that the object obstacles can be directly located based on the flow field information and robust flow sensing is perhaps not based on the spatial distribution of the flow field but rather, on its fluctuation range.

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A fluxgate based approach for ion beam current measurement in electron cyclotron resonance ion sources beamline

Andò

Baglio

Crispino

et al. 2018

2018 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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Challenges in underwater navigation: Exploring magnetic sensors anomaly sensing and navigation

Cited by 4 publications

References 8 publications

Robust Classification Method for Underwater Targets Using the Chaotic Features of the Flow Field

Robust Classification Method for Underwater Targets Using the Chaotic Features of the Flow Field

A Novel Obstacle Localization Method for an Underwater Robot Based on the Flow Field

A fluxgate based approach for ion beam current measurement in electron cyclotron resonance ion sources beamline

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