Automatic Detection and Compression for Passive Acoustic Monitoring of the African Forest Elephant

Björck, Johan; Rappazzo, Brendan; Chen, Di; Bernstein, Richard J.; Wrege, Peter H.; Gomes, Carla P.

doi:10.1609/aaai.v33i01.3301476

Cited by 22 publications

(18 citation statements)

References 29 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Moreover, AI systems may be capable of harnessing those methods of animal welfare science which are not yet advanced, such as direct communication with nonhuman animals, which would enable self-reporting of values and interests [53], or the measurement of wellbeing through correlated brain processes [19]. The measurement of brain processes would provide for optimal functional indicators, while the above ones are mostly proxy indicators.…”

Section: Potential Ai Approachesmentioning

confidence: 99%

AI Ethics and Value Alignment for Nonhuman Animals

Ziesche¹

2021

Philosophies

View full text Add to dashboard Cite

This article is about a specific, but so far neglected peril of AI, which is that AI systems may become existential as well as causing suffering risks for nonhuman animals. The AI value alignment problem has now been acknowledged as critical for AI safety as well as very hard. However, currently it has only been attempted to align the values of AI systems with human values. It is argued here that this ought to be extended to the values of nonhuman animals since it would be speciesism not to do so. The article focuses on the two subproblems—value extraction and value aggregation—discusses challenges for the integration of values of nonhuman animals and explores approaches to how AI systems could address them.

show abstract

Section: Potential Ai Approachesmentioning

confidence: 99%

AI Ethics and Value Alignment for Nonhuman Animals

Ziesche¹

2021

Philosophies

View full text Add to dashboard Cite

show abstract

“…There can also be extremely imbalanced data that makes accurate prediction difficult, e.g., in developing an ML pipeline to identify areas at high risk of poaching in the protected areas of Uganda (Gholami et al, 2019). The size of raw data can also be problematic, e.g., in recent attempts to monitor audio signals of African elephants with real-time ML methods to offer protection against poachers, network bandwidth limitations required efficient audio compression (Bjorck et al, 2019).…”

Section: Fairness and Justicementioning

confidence: 99%

“…While exploring e.g. hyperspectral remote sensing data for ML applications, researchers should focus on addressing the problem of high dimensionality of data, build models invariant under different conditions, promote the use of unsupervised classification in the absence of ground truth data, and create and use new public standardized datasets (O'Connor et al, 2017;Gewali et al, 2018;Bjorck et al, 2019;Rolnick et al, 2019). Given the requirements of data needed to capture the forest complexity, we argue that predictive ML applications in forest management must be developed at a very fine scale as used by scholars (Kelling et al, 2013;Curtis et al, 2018;Norouzzadeh et al, 2018).…”

Section: Theory and System-analysis Based ML Approaches And Use Of Fine-resolution Datasetsmentioning

confidence: 99%

Trustworthy Predictive Algorithms for Complex Forest System Decision-Making

Rana

Varshney

2021

Front. For. Glob. Change

View full text Add to dashboard Cite

Advances in predictive algorithms are revolutionizing how we understand and design effective decision support systems in many sectors. The expanding role of predictive algorithms is part of a broader movement toward using data-driven machine learning (ML) for modalities including images, natural language, speech. This article reviews whether and to what extent predictive algorithms can assist decision-making in forest conservation and management. Although state-of-the-art ML algorithms provide new opportunities, adoption has been slow in forest decision-making. This review shows how domain-specific characteristics, such as system complexity, impose limits on using predictive algorithms in forest conservation and management. We conclude with possible directions for developing new predictive tools and approaches to support meaningful forest decisions through easily interpretable and explainable recommendations.

show abstract

“…Currently, most ecoacoustic recognition methods rely on supervised classifiers to automatically identify and catalog species. Researchers apply these methods to a variety of species, including frogs, birds, whales, dolphins, elephants, mosquitoes, gibbons, among others [7][8][9][10][11][12][13]. Fully automatic multi-species monitoring systems have also been proposed, integrating hardware and software on a single platform [14].…”

Section: Introductionmentioning

confidence: 99%

Estimating ecoacoustic activity in the Amazon rainforest through Information Theory quantifiers

2020

View full text Add to dashboard Cite

Automatic monitoring of biodiversity by acoustic sensors has become an indispensable tool to assess environmental stress at an early stage. Due to the difficulty in recognizing the Amazon's high acoustic diversity and the large amounts of raw audio data recorded by the sensors, the labeling and manual inspection of this data is not feasible. Therefore, we propose an ecoacoustic index that allows us to quantify the complexity of an audio segment and correlate this measure with the biodiversity of the soundscape. The approach uses unsupervised methods to avoid the problem of labeling each species individually. The proposed index, named the Ecoacoustic Global Complexity Index (EGCI), makes use of Entropy, Divergence and Statistical Complexity. A distinguishing feature of this index is the mapping of each audio segment, including those of varied lengths, as a single point in a 2Dplane, supporting us in understanding the ecoacoustic dynamics of the rainforest. The main results show a regularity in the ecoacoustic richness of a floodplain, considering different temporal granularities, be it between hours of the day or between consecutive days of the monitoring program. We observed that this regularity does a good job of characterizing the soundscape of the environmental protection area of Mamirauá , in the Amazon, differentiating between species richness and environmental phenomena.

show abstract

Automatic Detection and Compression for Passive Acoustic Monitoring of the African Forest Elephant

Cited by 22 publications

References 29 publications

AI Ethics and Value Alignment for Nonhuman Animals

AI Ethics and Value Alignment for Nonhuman Animals

Trustworthy Predictive Algorithms for Complex Forest System Decision-Making

Estimating ecoacoustic activity in the Amazon rainforest through Information Theory quantifiers

Contact Info

Product

Resources

About