Mahsa Abdollahi scite author profile

Mahsa Abdollahi

4Publications

19Citation Statements Received

0Citation Statements Given

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193

Affiliations

Université du Québec, Amirkabir University of Technology

Publications

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Automated Beehive Acoustics Monitoring: A Comprehensive Review of the Literature and Recommendations for Future Work

2022

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Bees play an important role in agriculture and ecology, and their pollination efficiency is essential to the economic profitability of farms. The drastic decrease in bee populations witnessed over the last decade has attracted great attention to automated remote beehive monitoring research, with beehive acoustics analysis emerging as a prominent field. In this paper, we review the existing literature on bee acoustics analysis and report on the articles published between January 2012 and December 2021. Five categories are explored in further detail, including the origin of the articles, their study goal, experimental setup, audio analysis methodology, and reproducibility. Highlights and limitations in each of these categories are presented and discussed. We conclude with a set of recommendations for future studies, with suggestions ranging from bee species characterization, to recording and testing setup descriptions, to making data and codes available to help advance this new multidisciplinary field.

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Forecasting Bitcoin returns with long short-term memory networks and wavelet decomposition: A comparison of several market determinants

Parvini

Abdollahi

Seifollahi

et al. 2022

Applied Soft Computing

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The Importance of Context Awareness in Acoustics-Based Automated Beehive Monitoring

Abdollahi

Henry²,

Giovenazzo

et al. 2022

Applied Sciences

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The vital role of honeybees in pollination and their high rate of mortality in the last decade have raised concern among beekeepers and researchers alike. As such, robust and remote sensing of beehives has emerged as a potential tool to help monitor the health of honeybees. Over the last decade, several monitoring systems have been proposed, including those based on in-hive acoustics. Despite its popularity, existing audio-based systems do not take context into account (e.g., environmental noise factors), and thus the performance may be severely hampered when deployed . In this paper, we investigate the effect that three different environmental noise factors (i.e., nearby train rail squealing, beekeeper speech, and rain noise) can have on three acoustic features (i.e., spectrogram, mel frequency cepstral coefficients, and discrete wavelet coefficients) used in existing automated beehive monitoring systems. To this end, audio data were collected continuously over a period of three months (August, September, and October) in 2021 from 11 urban beehives located in downtown Montréal, Québec, Canada. A system based on these features and a convolutional neural network was developed to predict beehive strength, an indicator of the size of the colony. Results show the negative impact that environmental factors can have across all tested features, resulting in an increase of up to 355% in mean absolute prediction error when heavy rain was present.

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A novel decomposition-forecasting approach towards Bitcoin price prediction: Hybrid of Theta-SVR

Parvini

Abdollahi

Nozari

2020

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Mahsa Abdollahi

Automated Beehive Acoustics Monitoring: A Comprehensive Review of the Literature and Recommendations for Future Work

Forecasting Bitcoin returns with long short-term memory networks and wavelet decomposition: A comparison of several market determinants

The Importance of Context Awareness in Acoustics-Based Automated Beehive Monitoring

A novel decomposition-forecasting approach towards Bitcoin price prediction: Hybrid of Theta-SVR

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