VAR, ARIMAX and ARIMA models for nowcasting unemployment rate in Ghana using Google trends

Adu, Williams Kwasi; Appiahene, Peter; Afrifa, Stephen

doi:10.1186/s43067-023-00078-1

Cited by 7 publications

(3 citation statements)

References 30 publications

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“…Not much different, the ARIMAX model is a development of the ARIMA model. This model develops the ARIMA model, whose predictions are not only influenced by a linear combination of previous variable values and prediction errors but are also influenced by exogenous variables marked with the letter X [37]. The inclusion of exogenous variables that are proven to influence the predicted value can improve forecasting ability [39].…”

Section: Methodsmentioning

confidence: 99%

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Forecasting the Air Quality Index by Utilizing Several Meteorological Factors Using the ARIMAX Method (Case Study: Central Jakarta City)

Muzakki,

Putri,

Maruli

et al. 2024

jtik

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Today's society really pays attention to air quality because the impact of exposure to pollutants in the air is starting to be felt. PM 2.5 pollutants are very dangerous because their small size can penetrate the alveoli of human lungs. The value calculation of the Air Quality Index (AQI) is important to prepare mitigation and defensive measures to reduce the negative impact of air quality and as a basis for future policymaking. Several method comparisons have been carried out by researchers to predict AQI. However, researchers have not studied much regarding the use of meteorological factors in the form of average air temperature (°C), average air humidity (percent), and average wind speed (m/s) in forecasting AQI values, even though meteorological factors have a significant link, according to previous researchers. This research forecasts AQI using the ARIMAX method, which includes meteorological factors as exogenous variables, using daily AQI PM 2.5 data in Central Jakarta. The best modeling of the data is ARIMA (1,1,1) without X and ARIMAX (1,1,1). Based on the calculation of AIC, BIC, RMSE, and MAPE values, ARIMAX (1,1,1) modeling produces better forecasting, so it can be concluded that forecasting involving meteorological factors can make forecasting more precise. Predicting AQI using ARIMAX with upcoming meteorological factors is beneficial, as precise prediction results can assist in policy-making to prevent the adverse impacts of air quality on public health. In future research, other meteorological factors could be studied and combined with other modeling besides ARIMA.

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Section: Methodsmentioning

confidence: 99%

“…where t is the observation value at time t, s is the parameter for the independent variable Xs, p is the parameter of the autoregressive component of the model, q is the moving average component parameter, and t is the error in the t-th period [37].…”

Section: Methodsmentioning

confidence: 99%

Forecasting the Air Quality Index by Utilizing Several Meteorological Factors Using the ARIMAX Method (Case Study: Central Jakarta City)

Muzakki,

Putri,

Maruli

et al. 2024

jtik

View full text Add to dashboard Cite

show abstract

“…MAPE is an alternative statistical metric for evaluating a regression model's accuracy in terms of discrepancies between observed and predicted values. A lower MAPE indicates that the prediction model is accurate [47]. It is assumed that simulations and observations of varied lengths have the same weight for computing statistical indicators.…”

Section: Statistical Analysis and Evaluation Metricsmentioning

confidence: 99%

Climate change impact assessment on groundwater level changes: A study of hybrid model techniques

Afrifa

Zhang

Xin

et al. 2023

IET Signal Processing

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One of the most important sources of water supply is groundwater. However, the groundwater level (GWL) is significantly impacted by the global climate change. Therefore, under these more severe climate change conditions, the accurate and simple forecast of farmland GWL is a crucial component of agricultural water management. A hybrid model (HM) of Bayesian random forest (BRF), Bayesian support vector machine (BSVM), and Bayesian artificial neural network (BANN) is built in this study. The HM is made up of a Bayesian model averaging (BMA) and three machine learning models: random forest (RF), support vector machine (SVM), and artificial neural network. These three HMs are employed to help automate logical inference and decision‐making in business intelligence for groundwater management. For this purpose, data on 8 separate climatic factors that impact GWL changes in the study area were acquired. Nine distinct farming communities' GWL change data were utilised as the dependent variables for each model fit (community data). The effectiveness of the HM techniques was assessed using the evaluation metrics of mean absolute error (MAE), coefficient of determination (R2), mean absolute percent error (MAPE), and root mean square error (RMSE). The model fit in Suhum had the greatest performance with the highest accuracy (R2 varied from 0.9051 to 0.9679) and the lowest error scores (RMSE ranged from 0.0653 to 0.0727, and MAE ranged from 0.0121 to 0.0541), according to the models' evaluation results. The BRF delivered the greatest results when compared to the two independent HMs, the BSVM and BANN. Future GWL and climatic variable data may be trained using the trained HM techniques to determine the effects of climate change. Farmers, businesses, and civil society organisations might benefit from continuous monitoring of GWL data and education on climate change to help control and prevent excessive deteriorations of global climate change on GWL.

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A reinforcement learning algorithm for scheduling parallel processors with identical speedup functions

Ziaei,

Ranjbar

2023

Machine Learning with Applications

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VAR, ARIMAX and ARIMA models for nowcasting unemployment rate in Ghana using Google trends

Cited by 7 publications

References 30 publications

Forecasting the Air Quality Index by Utilizing Several Meteorological Factors Using the ARIMAX Method (Case Study: Central Jakarta City)

Forecasting the Air Quality Index by Utilizing Several Meteorological Factors Using the ARIMAX Method (Case Study: Central Jakarta City)

Climate change impact assessment on groundwater level changes: A study of hybrid model techniques

A reinforcement learning algorithm for scheduling parallel processors with identical speedup functions

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