Mashrura Tasnim scite author profile

Alzheimer’s dementia (AD) is a chronic neurodegenerative illness that manifests in a gradual decline of cognitive function. Early identification of AD is essential for managing the ensuing cognitive deficits, which may lead to a better prognostic outcome. Speech data can serve as a window into cognitive functioning and can be used to screen for early signs of AD. This paper describes methods for learning models using speech samples from the DementiaBank database, for identifying which subjects have Alzheimer’s dementia. We consider two machine learning tasks: 1) binary classification to distinguish patients from healthy controls, and 2) regression to estimate each subject’s Mini-Mental State Examination (MMSE) score. To develop models that can use acoustic and/or language features, we explore a variety of dimension reduction techniques, training algorithms, and fusion strategies. Our best performing classification model, using language features with dimension reduction and regularized logistic regression, achieves an accuracy of 85.4% on a held-out test set. On the regression task, a linear regression model trained on a reduced set of language features achieves a root mean square error (RMSE) of 5.62 on the test set. These results demonstrate the promise of using machine learning for detecting cognitive decline from speech in AD patients.

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Detecting Depression from Voice

Tasnim

Stroulia

2019

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The coverage problem in visual sensor networks: A target oriented approach

Zannat

Akter

Tasnim

et al. 2016

Journal of Network and Computer Applications

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DEPAC: a Corpus for Depression and Anxiety Detection from Speech

Tasnim¹,

Malikeh²,

Diep³

et al. 2022

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Mental distress like depression and anxiety contribute to the largest proportion of the global burden of diseases. Automated diagnosis system of such disorders, empowered by recent innovations in Artificial Intelligence, can pave the way to reduce the sufferings of the affected individuals. Development of such systems requires information-rich and balanced corpora. In this work, we introduce a novel mental distress analysis audio dataset DEPAC, labelled based on established thresholds on depression and anxiety standard screening tools. This large dataset comprises multiple speech tasks per individual, as well as relevant demographic information. Alongside, we present a feature set consisting of hand-curated acoustic and linguistic features, which were found effective in identifying signs of mental illnesses in human speech. Finally, we justify the quality and effectiveness of our proposed audio corpus and feature set in predicting depression severity by comparing the performance of baseline machine learning models built on this dataset with baseline models trained on other well-known depression corpora.

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Intelligent depression detection and support system: Statistical analysis, psychological review and design implication

Tasnim

Shahriyar

Nahar

et al. 2016

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Mashrura Tasnim

Learning Language and Acoustic Models for Identifying Alzheimer’s Dementia From Speech

Detecting Depression from Voice

The coverage problem in visual sensor networks: A target oriented approach

DEPAC: a Corpus for Depression and Anxiety Detection from Speech

Intelligent depression detection and support system: Statistical analysis, psychological review and design implication

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