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Digital Bioacoustics

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Welcome to c/DigitalBioacoustics, a unique niche in the vast universe of online forums and digital communities. At its core, bioacoustics is the study of sound in and from living organisms, an intriguing intersection of biology and acoustics. Digital bioacoustics, an extension of this field, involves using technology to capture, analyze, and interpret these biological sounds. This community is dedicated to exploring these fascinating aspects of nature through a digital lens.

As you delve into c/DigitalBioacoustics, you'll notice it's not just another technical forum. This space transcends the usual drone of server rooms or the monotonous tap-tap of keyboards. Here, members engage in a unique fusion of natural wonders and technological prowess. Imagine a world where the rustling of leaves, the chirping of birds, and the mysterious calls of nocturnal creatures meet the precision of digital recording and analysis.

Within this domain, we, the participants, become both observers and participants in an intricate dance. Our mission is to unravel the mysteries of nature's soundtrack, decoding the language of the wild through the lens of science. This journey is not just about data and graphs; it's about connecting with the primal rhythm of life itself.

As you venture deeper, the poetic essence of our community unfolds. Nature's raw concert, from the powerful songs of mating calls to the subtle whispers of predator and prey, creates a tapestry of sounds. We juxtapose these organic melodies with the mechanical beeps and buzzes of our equipment, a reminder of the constant interplay between the natural world and our quest to understand it.

Our community embodies the spirit of curious scientists and nature enthusiasts alike, all drawn to the mystery and majesty of the natural world. In this symphonic melding of science and nature, we discover not just answers, but also new questions and a deeper appreciation for the complex beauty of our planet.

c/DigitalBioacoustics is more than a mere digital gathering place. It's a living, breathing symphony of stories, each note a discovery, each pause a moment of reflection. Here, we celebrate the intricate dance of nature and technology, the joy of discovery, and the enduring quest for understanding in a world filled with both harmony and dissonance.

For those brave enough to explore its depths, c/DigitalBioacoustics offers a journey like no other: a melding of science and art, a discovery of nature's secrets, and a celebration of the eternal dance between the wild and the wired.

Related communities:

https://lemmy.world/c/awwnverts
https://lemmy.world/c/bats
[email protected]
https://lemmy.world/c/birding
https://lemmy.world/c/capybara
https://lemmy.world/c/jellyfish
https://lemmy.world/c/nature
[email protected]
https://lemmy.world/c/opossums
https://lemmy.world/c/raccoons
https://lemmy.world/c/skunks
https://lemmy.world/c/whales

Please let me know if you know of any other related communities or any other links I should add.

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Detecting the Presence of Sperm Whales’ Echolocation Clicks in Noisy Environments (arxiv.org)
submitted 11 months ago by Haggunenons to c/digitalbioacoustics
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[–] Haggunenons 1 points 11 months ago

Summary made by AnalyzePaper GPT

SUMMARY

Title: Detecting the Presence of Sperm Whales’ Echolocation Clicks in Noisy Environments Presenters: Guy Gubnitky, Roee Diamant

This research focuses on identifying sperm whale echolocation clicks in noisy underwater environments. It leverages the stability of the multi-pulse structure (MPS) of clicks as a metric for distinguishing whale clicks from noise, even amid simultaneous emissions from multiple whales.

AUTHORS

  • Guy Gubnitky
  • Roee Diamant

AUTHOR ORGANIZATIONS

  • Hatter Department of Marine Technologies, University of Haifa, Israel
  • Faculty of Electrical Engineering and Computing, University of Zagreb, Croatia

FINDINGS

  • MPS-based Detection: The study introduces a novel method, MPS-CD, for detecting sperm whale clicks using the stability of their multi-pulse structure (MPS).
  • Effective in Noisy Environments: The method effectively distinguishes between sperm whale clicks and noise transients, performing well in environments with high noise levels and low signal-to-noise ratios.
  • Performance Assessment: The detection approach was tested using datasets from the Mediterranean Sea, Dominica Island, and the Bahamas. It showed superior precision and recall, especially in noisy environments, compared to two benchmark detectors.
  • Large Datasets: The study utilized approximately 40,000 clicks from multiple sperm whales and over 302 hours of noise recordings from different marine environments.
  • Reproducibility: The research provides access to the database of labeled clicks and the implementation code for the MPS-CD method.

STUDY DETAILS

  • Data Collection: The study used three datasets, including seven months of recordings from the Mediterranean Sea, data from Dominica Island with around 40,000 sperm whale clicks, and a dataset from the Bahamas with 1,203 labeled clicks.
  • Environment Variability: The study encompassed different marine environments, ensuring the robustness of the detection method in varied conditions.

STUDY QUALITY

  1. Sample Size: Large datasets with tens of thousands of clicks and hundreds of hours of noise recordings provide a robust basis for analysis.
  2. Confidence Intervals: Not specifically discussed in the summary.
  3. P-value: Not mentioned in the summary.
  4. Effect Size: The method shows a significant improvement in detecting whale clicks over benchmarks, suggesting a strong effect size.
  5. Study Design: The study employs an innovative approach using the MPS stability metric, which is a significant advancement in the field.
  6. Consistency of Results: The method consistently outperforms benchmarks in different marine environments.
  7. Data Analysis Methods: Utilizes clustering of MPS measures and verification steps, appropriate for the type of data and research question.
  8. Researcher's Interpretation: The findings are presented with due consideration of the study's scope and limitations, focusing on the practical applicability of the method.

SIMILAR RESEARCH

I will now browse the web to find similar studies.

SIMILAR RESEARCH

  1. Deep Machine Learning Techniques for the Detection and Classification of Sperm Whale Bioacoustics

    • Authors: [Nature Scientific Reports]
    • Details: This study applies neural network-based machine learning techniques to accelerate the analysis of sperm whale vocalizations. It involves four primary tasks: detection of echolocation clicks using a CNN-based approach, classification of codas into categorical types, recognition of vocal clan coda dialects, and identification of individual whales based on coda production. The study achieved a 100% accuracy in classifying echolocation clicks using a CNN-based approach and used LSTM and GRU RNN-based methods for other tasks【15†source】.

  2. Sperm Whale Long-Range Echolocation Sounds Revealed by ANTARES, a Deep-Sea Neutrino Telescope

    • Authors: [Scientific Reports]
    • Details: This study used two years of continuous acoustic data from the ANTARES neutrino telescope in the Mediterranean Sea. It demonstrated the year-round presence of sperm whales in the Ligurian Sea. The study also analyzed the impact of surface shipping noise on sperm whale foraging behavior, finding that the whales' acoustic presence was not conditioned by the noise【16†source】.

  3. Echolocation Click Parameters and Biosonar Behavior of the Dwarf Sperm Whale (Kogia sima)

    • Authors: Chloe E. Malinka, Pernille Tønnesen, Charlotte A. Dunn, Diane E. Claridge, Tess Gridley, Simon H. Elwen, Peter Teglberg Madsen
    • Details: This research focused on the echolocation clicks of the dwarf sperm whale, which produce narrow-band high-frequency (NBHF) clicks. The study aimed to understand how these deep-diving whales hunt with NBHF clicks in the deep sea. Parameters from on-axis clicks were analyzed to determine source levels, directionality, and inter-click intervals【17†source】.

POSSIBLE OPPOSING RESEARCH

I will now browse the web to find studies that may offer contrasting viewpoints or findings regarding sperm whale echolocation.

POSSIBLE OPPOSING RESEARCH

  1. Changes in the Acoustic Activity of Beaked Whales and Sperm Whales Recorded During a Naval Training Exercise

    • Details: This study, published in Scientific Reports, investigated the effect of naval training exercises on the acoustic activity of sperm whales. It found that the number of hours per day with echolocation clicks from sperm whales significantly reduced during the naval exercise compared to the pre-exercise period. This suggests that human activities such as naval exercises might influence the behavior of sperm whales, particularly their use of echolocation【22†source】.

  2. Sperm Whale Acoustic Abundance and Dive Behavior in the Western North Atlantic

    • Details: Another study in Scientific Reports focused on sperm whale acoustic abundance and dive behavior. It used passive acoustic data and various detection and localization techniques to study sperm whales. This research offers a different perspective on understanding sperm whale behavior and echolocation, potentially contrasting with the methodologies or findings of other studies focused on echolocation detection【23†source】.

  3. Modeling Potential Masking of Echolocating Sperm Whales

    • Details: This study, appearing in the Journal of the Acoustical Society of America, explored the potential masking of echolocation-based foraging in sperm whales by active sonar. It modeled the echolocation detection process of sperm whales and predicted continuous masking for an echolocating sperm whale facing a sonar under certain conditions. This research highlights the impact of human-made noise on sperm whale echolocation, offering a contrasting viewpoint on the challenges faced by sperm whales in utilizing echolocation effectively in noisy environments【24†source】.

These studies present contrasting viewpoints or findings regarding sperm whale echolocation, focusing on the impact of human activities and environmental factors on whale behavior and echolocation efficacy.