Mohsena Ashraf scite author profile

Data analysis in modern times involves working with large volumes of data, including timeseries data. This type of data is characterized by its high dimensionality, enormous volume, and the presence of both noise and redundant features. However, the "curse of dimensionality" often causes issues for learning approaches, which can fail to capture the temporal dependencies present in time-series data. To address this problem, it is essential to reduce dimensionality while preserving the intrinsic properties of temporal dependencies. This will help to avoid lower learning and predictive performances. This study presents twelve different dimensionality reduction algorithms that are specifically suited for working with timeseries data and fall into different categories, such as supervision, linearity, time and memory complexity, hyper-parameters, and drawbacks. INDEX TERMS Time-series data, Dimensionality reduction, High-dimensional dataThis article has been accepted for publication in IEEE Access.

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Internet of Things (IoT): Vulnerabilities, Security Concerns and Things to Consider

Ahmed

Islam

Ashraf

et al. 2020

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hActNET: An Improved Neural Network based Method in Recognizing Human Activities

Chowdhury

Ashraf

Islam

et al. 2020

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A Review on Diabetes Self-management Applications for Android Smartphones: Perspective of Developing Countries

Anowar

Ashraf

Islam

et al. 2020

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Mohsena Ashraf

Brain Tumor Detection Using Convolutional Neural Network

A Survey on Dimensionality Reduction Techniques for Time-Series Data

Internet of Things (IoT): Vulnerabilities, Security Concerns and Things to Consider

hActNET: An Improved Neural Network based Method in Recognizing Human Activities

A Review on Diabetes Self-management Applications for Android Smartphones: Perspective of Developing Countries

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