A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics

Stream and river monitoring have an influential role in agriculture, the fishing industry, land surveillance, the oil and gas industry, etc. Recognizing sudden changes in the behavior of streamflow could also provide tremendous insight for decision-making and administration purposes. The primary pur...

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Bibliographic Details
Published in:Water
Main Authors: Hatef Dastour, Anil Gupta, Gopal Achari, Quazi K. Hassan
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2023
Subjects:
time series analysis
data segmentation
machine learning
SARIMA
random forest regression
Athabasca River
Fort McMurray
Sarima
Online Access:https://doi.org/10.3390/w15081571
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spelling ftmdpi:oai:mdpi.com:/2073-4441/15/8/1571/ 2023-08-20T04:05:08+02:00 A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics Hatef Dastour Anil Gupta Gopal Achari Quazi K. Hassan agris 2023-04-17 application/pdf https://doi.org/10.3390/w15081571 EN eng Multidisciplinary Digital Publishing Institute Hydraulics and Hydrodynamics https://dx.doi.org/10.3390/w15081571 https://creativecommons.org/licenses/by/4.0/ Water; Volume 15; Issue 8; Pages: 1571 time series analysis data segmentation machine learning SARIMA random forest regression Text 2023 ftmdpi https://doi.org/10.3390/w15081571 2023-08-01T09:43:36Z Stream and river monitoring have an influential role in agriculture, the fishing industry, land surveillance, the oil and gas industry, etc. Recognizing sudden changes in the behavior of streamflow could also provide tremendous insight for decision-making and administration purposes. The primary purpose of this study is to offer a new robust Regime Shift Change Detection (RSCD) algorithm which can identify periods and regime changes without any assumptions regarding the length of these periods. A regime shift algorithm using two different refined method approaches is proposed in this article. The RSCD with Relative Difference (RSCD-RD) and RSCD with Growth Rate (RSCD-GR) are the two main specializations of this regime shift algorithm. We compared these two specializations on train and test datasets and commented on the advantages and each specialization. RSCD-GR and RSCD-RD were equally effective in detecting regime changes when thresholds were pinpointed for each station and season. However, RSCD-RD outperformed RSCD-GR when general thresholds were used for cold and warm months. A strength of RSCD-GR is the ability to investigate newly observed data separately, while RSCD-RD may require re-investigation of historical data in some cases. A regime change was detected in the monthly streamflow data of the Athabasca River at Athabasca (07BE001) in May 2007, while no such change was observed in the monthly streamflow data of the Athabasca River below Fort McMurray (07DA001). The discrepancy could be attributed to factors such as the clarity of the river water from Saskatchewan or the utilization of industrial water. Additional investigation might be required to determine the underlying causes. Text Athabasca River Fort McMurray MDPI Open Access Publishing Athabasca River Fort McMurray Sarima ENVELOPE(29.040,29.040,69.037,69.037) Water 15 8 1571
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic time series analysis
data segmentation
machine learning
SARIMA
random forest regression
spellingShingle time series analysis
data segmentation
machine learning
SARIMA
random forest regression
Hatef Dastour
Anil Gupta
Gopal Achari
Quazi K. Hassan
A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics
topic_facet time series analysis
data segmentation
machine learning
SARIMA
random forest regression
description Stream and river monitoring have an influential role in agriculture, the fishing industry, land surveillance, the oil and gas industry, etc. Recognizing sudden changes in the behavior of streamflow could also provide tremendous insight for decision-making and administration purposes. The primary purpose of this study is to offer a new robust Regime Shift Change Detection (RSCD) algorithm which can identify periods and regime changes without any assumptions regarding the length of these periods. A regime shift algorithm using two different refined method approaches is proposed in this article. The RSCD with Relative Difference (RSCD-RD) and RSCD with Growth Rate (RSCD-GR) are the two main specializations of this regime shift algorithm. We compared these two specializations on train and test datasets and commented on the advantages and each specialization. RSCD-GR and RSCD-RD were equally effective in detecting regime changes when thresholds were pinpointed for each station and season. However, RSCD-RD outperformed RSCD-GR when general thresholds were used for cold and warm months. A strength of RSCD-GR is the ability to investigate newly observed data separately, while RSCD-RD may require re-investigation of historical data in some cases. A regime change was detected in the monthly streamflow data of the Athabasca River at Athabasca (07BE001) in May 2007, while no such change was observed in the monthly streamflow data of the Athabasca River below Fort McMurray (07DA001). The discrepancy could be attributed to factors such as the clarity of the river water from Saskatchewan or the utilization of industrial water. Additional investigation might be required to determine the underlying causes.
format Text
author Hatef Dastour
Anil Gupta
Gopal Achari
Quazi K. Hassan
author_facet Hatef Dastour
Anil Gupta
Gopal Achari
Quazi K. Hassan
author_sort Hatef Dastour
title A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics
title_short A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics
title_full A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics
title_fullStr A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics
title_full_unstemmed A Robust Regime Shift Change Detection Algorithm for Water-Flow Dynamics
title_sort robust regime shift change detection algorithm for water-flow dynamics
publisher Multidisciplinary Digital Publishing Institute
publishDate 2023
url https://doi.org/10.3390/w15081571
op_coverage agris
long_lat ENVELOPE(29.040,29.040,69.037,69.037)
geographic Athabasca River
Fort McMurray
Sarima
geographic_facet Athabasca River
Fort McMurray
Sarima
genre Athabasca River
Fort McMurray
genre_facet Athabasca River
Fort McMurray
op_source Water; Volume 15; Issue 8; Pages: 1571
op_relation Hydraulics and Hydrodynamics
https://dx.doi.org/10.3390/w15081571
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/w15081571
container_title Water
container_volume 15
container_issue 8
container_start_page 1571
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