HORIZONTAL ANGULAR DISCRIMINATION BY AN ECHOLOCATING BOTTLENOSE DOLPHIN<i>TURSIOPS TRUNCATUS</i>

Branstetter, Brian K.; Mevissen, Sonja J.; Herman, Louis M.; Pack, Adam A.; Roberts, Scott

doi:10.1080/09524622.2003.9753510

Cited by 12 publications

(1 citation statement)

References 21 publications

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“…Thus, the system is in principle capable of unambiguously localizing a target to an accuracy of a tenth of a degree. In practice, noise and asymmetry between the two rows of teeth limit performance, and bottlenose dolphins are found to have an accuracy and resolution of about ±1 • when actively echolocating (Branstetter et al 2003).…”

Section: Monopulse and Endfire Combinedmentioning

confidence: 99%

Dolphin sonar—modelling a new receiver concept

Dobbins¹

2007

Bioinspir. Biomim.

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Observations suggest that dolphin sonars function well in the very shallow, reverberant, near-shore region of the ocean, and significantly out-perform man-made systems under such conditions. The echolocation characteristics of many small cetaceans have been measured directly and the high performance of biosonar systems is not in question, but explanations for their resolution, target detection, localization and tracking abilities are inadequate and deserve further investigation. The dolphin's lower jaw has been identified as part of an echo-receptor, and several hypotheses have been proposed to explain this. In one of these, the regularity of dolphin teeth was considered as a sonar array. This paper explores the physics of such systems with models based on established radar and sonar principles, and using data from various dolphin species. The insights gained from this modelling then lead to speculative proposals for new sonar receiver concepts that may have advantages over more conventional designs in shallow water operation.

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Section: Monopulse and Endfire Combinedmentioning

confidence: 99%

Dolphin sonar—modelling a new receiver concept

Dobbins¹

2007

Bioinspir. Biomim.

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A dolphin-inspired compact sonar for underwater acoustic imaging

Vishnu

Hoffmann‐Kuhnt

et al. 2022

Commun Eng

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Underwater imaging sonars are widely used for oceanic exploration but are bulky and expensive for some applications. The sonar system of dolphins, which uses sound pulses called clicks to investigate their environment, offers superior shape discrimination capability compared to human-derived imaging sonars of similar size and frequency. In order to gain better understanding of dolphin sonar imaging, we train a dolphin to acoustically interrogate certain objects and match them visually. We record the echoes the dolphin receives and are able to extract object shape information from these recordings. We find that infusing prior information into the processing, specifically the sparsity of the shapes, yields a clearer interpretation of the echoes than conventional signal processing. We subsequently develop a biomimetic sonar system that combines sparsity-aware signal processing with high-frequency broadband click signals similar to that of dolphins, emitted by an array of transmitters. Our findings offer insights and tools towards compact higher resolution sonar imaging technologies.

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