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Main Authors: Habiba, Mansura, Pearlmutter, Barak A., Maleki, Mehrdad
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.09106
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author Habiba, Mansura
Pearlmutter, Barak A.
Maleki, Mehrdad
author_facet Habiba, Mansura
Pearlmutter, Barak A.
Maleki, Mehrdad
contents Continuous-time series is essential for different modern application areas, e.g. healthcare, automobile, energy, finance, Internet of things (IoT) and other related areas. Different application needs to process as well as analyse a massive amount of data in time series structure in order to determine the data-driven result, for example, financial trend prediction, potential probability of the occurrence of a particular event occurrence identification, patient health record processing and so many more. However, modeling real-time data using a continuous-time series is challenging since the dynamical systems behind the data could be a differential equation. Several research works have tried to solve the challenges of modelling the continuous-time series using different neural network models and approaches for data processing and learning. The existing deep learning models are not free from challenges and limitations due to diversity among different attributes, behaviour, duration of steps, energy, and data sampling rate. This paper has described the general problem domain of time series and reviewed the challenges of modelling the continuous time series. We have presented a comparative analysis of recent developments in deep learning models and their contribution to solving different difficulties of modelling the continuous time series. We have also identified the limitations of the existing neural network model and open issues. The main goal of this review is to understand the recent trend of neural network models used in a different real-world application with continuous-time data.
format Preprint
id arxiv_https___arxiv_org_abs_2409_09106
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Recent Trends in Modelling the Continuous Time Series using Deep Learning: A Survey
Habiba, Mansura
Pearlmutter, Barak A.
Maleki, Mehrdad
Machine Learning
Artificial Intelligence
Continuous-time series is essential for different modern application areas, e.g. healthcare, automobile, energy, finance, Internet of things (IoT) and other related areas. Different application needs to process as well as analyse a massive amount of data in time series structure in order to determine the data-driven result, for example, financial trend prediction, potential probability of the occurrence of a particular event occurrence identification, patient health record processing and so many more. However, modeling real-time data using a continuous-time series is challenging since the dynamical systems behind the data could be a differential equation. Several research works have tried to solve the challenges of modelling the continuous-time series using different neural network models and approaches for data processing and learning. The existing deep learning models are not free from challenges and limitations due to diversity among different attributes, behaviour, duration of steps, energy, and data sampling rate. This paper has described the general problem domain of time series and reviewed the challenges of modelling the continuous time series. We have presented a comparative analysis of recent developments in deep learning models and their contribution to solving different difficulties of modelling the continuous time series. We have also identified the limitations of the existing neural network model and open issues. The main goal of this review is to understand the recent trend of neural network models used in a different real-world application with continuous-time data.
title Recent Trends in Modelling the Continuous Time Series using Deep Learning: A Survey
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2409.09106