Time Series Forecasting by using Seasonal Autoregressive Integrated Moving Average: Subset, Multiplicative or Additive Model

Suhartono, Suhartono

doi:10.3844/jmssp.2011.20.27

Cited by 59 publications

(27 citation statements)

References 20 publications

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“…Comparisons between different Box-Jenkins time series models can be easily found in the literature [28][29][30][31], but there are very few works comparing the results of different parameter estimation methods. ML and LS were compared in [32] to obtain an ARIMA model to predict the gold price.…”

Section: Autoregressive Integrated Moving Average Processesmentioning

confidence: 99%

A Survey on Data Mining Techniques Applied to Electricity-Related Time Series Forecasting

et al. 2015

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Data mining has become an essential tool during the last decade to analyze large sets of data. The variety of techniques it includes and the successful results obtained in many application fields, make this family of approaches powerful and widely used. In particular, this work explores the application of these techniques to time series forecasting. Although classical statistical-based methods provides reasonably good results, the result of the application of data mining outperforms those of classical ones. Hence, this work faces two main challenges: (i) to provide a compact mathematical formulation of the mainly used techniques; (ii) to review the latest works of time series forecasting and, as case study, those related to electricity price and demand markets.

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Section: Autoregressive Integrated Moving Average Processesmentioning

confidence: 99%

A Survey on Data Mining Techniques Applied to Electricity-Related Time Series Forecasting

et al. 2015

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“…At each time stamp, hourly forecasts are made for the next 24 h. Due to daily periodic characteristics of load curves, forecasts are made using a multiplicative seasonal auto-regressive integrated moving average model (ARIMA) [19,20]. With consideration of daily periodicity as well as short-term disturbance, ARIMA (0,1,1) with seasonal moving average part MA (24) are applied, i.e., ARIMA (0,1,1) × (0,1,1) 24 .…”

Section: Optimization In An Online Modementioning

confidence: 99%

An Online Reactive Power-Optimization Strategy Based on Load-Curve Prediction and Segmentation

Wang

Deng

2020

Applied Sciences

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Due to fluctuating characteristics of loads, dynamic reactive power optimization over a certain time period is essential to provide effective strategies to maintain the security and economic operation of distribution systems. In operation, reactive power compensation devices cannot be adjusted too frequently due to their lifetime constraints. Thus, in this paper, an online reactive power optimization strategy based on the segmentation of multiple predicted load curves is proposed to address this issue, aiming to minimize network losses and at the same time to minimize reactive power-compensation device adjustment times. Based on forecasted time series of loads, the strategy first segments each load curve into several sections by means of thresholding a filtered signal, and then optimizes reactive power dispatch based on average load in each section. Through case studies using a modified IEEE 34-bus system and field measurement of loads, the merits of the proposed strategy is verified in terms of both optimization performance and computational efficiency compared with state-of-the-art methods. optimization is of importance, which optimizes for a time period and makes the adjustment times of devices one of the optimization objectives.Dynamic reactive power optimization is a large-scale multi-period mix-integer non-linear programming problem. The classical methods such as non-linear programming [4] require differentiable objective function and are thus not applicable for dynamic optimization.A number of attempts have been made to conquer the problem of dynamic optimization. Reference [13] made daily reactive power optimization considering network losses, adjustment times of on-load tap changer (OLTC) and switchable capacitor banks, using an improved multi-population ant colony algorithm. Reference [14] used mixed integer non-linear programming to optimize transmission losses only, considering constraints of reactive power equipment operation limits and power grid security. Using a filter collaborative state transition algorithm (FCSTA), reference [15] built a two-objective dynamic reactive power optimization model, with one objective to minimize the actual power losses and voltage deviations, the other to minimize incremental system loss compared with the last time stamp. The objectives can be exchanged during dynamic optimization.Generally, state-of-the-art attempts include reducing scales of objectives or constraints, optimizing for increments at continuous time stamp, and using AI methods. However, much computational burden will be introduced when using AI methodology.Aiming to maintain objectives and constraints, as well as to reduce computational complexity, this paper proposes to segment load curves in a duty cycle into several stable time series first, and then conduct optimization for each segment. Based on online load predictions, the method can be applied in an online mode. Since the whole time series of loads need to be segmented into parts with lowest inner deviation, the methods of wind ramp extraction ...

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“…One of the important time series modeling techniques used in forecasting tourism demand is the SARIMA modeling which is based on the standard Box-Jenkins methodology. Studies that have employed SARIMA modeling in forecasting the tourist arrivals include Chaitip et al [1], Nanthakumar and Ibrahim [2], Saayman and Saayman [3], Suhartono [4] and Padhan [5] among others. Generally, these studies show that the SARIMA model outperforms other competing models in terms of forecasting.…”

Section: Literature Reviewmentioning

confidence: 99%

“…The study found positive growth in the number of tourist arrivals to Thailand and SARIMA model is said to be the best model. Similarly, Suhartono [4] proposed a new procedure for modeling the airline data and the number of tourist arrivals to Bali. The SARIMA model consists of subset, multiplicative and additive order and the results indicate the modeling of the airline data yielded a subset SARIMA model as the best model, whereas an additive SARIMA model is the best model for forecasting the number of tourist arrivals to Bali.…”

Section: Literature Reviewmentioning

confidence: 99%

Forecasting international tourism demand from the US, Japan and South Korea to Malaysia: A SARIMA approach

Borhan¹,

Arsad²

2014

AIP Conference Proceedings

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Abstract. One of the major contributing sectors for Malaysia's economic growth is tourism. The number of international tourist arrivals to Malaysia has been showing an upward trend as a result of several programs and promotion introduced by the Malaysian government to attract international tourists to the country. This study attempts to model and to forecast tourism demand for Malaysia by three selected countries: the US, Japan and South Korea. This study utilized monthly time series data for the period from January 1999 to December 2012 and employed the well-known Box-Jenkins seasonal ARIMA modeling procedures. Not surprisingly the results show the number of tourist arrivals from the three countries contain strong seasonal component as the arrivals strongly dependent on the season in the country of origin. The findings of the study also show that the number of tourist arrivals from the US and South Korea will continue to increase in the near future. Meanwhile the arrivals from Japan is forecasted to show a drop in the near future and as such tourism authorities in Malaysia need to enhance the promotional effort to attract more tourists from Japan to visit Malaysia.

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Time Series Forecasting by using Seasonal Autoregressive Integrated Moving Average: Subset, Multiplicative or Additive Model

Cited by 59 publications

References 20 publications

A Survey on Data Mining Techniques Applied to Electricity-Related Time Series Forecasting

A Survey on Data Mining Techniques Applied to Electricity-Related Time Series Forecasting

An Online Reactive Power-Optimization Strategy Based on Load-Curve Prediction and Segmentation

Forecasting international tourism demand from the US, Japan and South Korea to Malaysia: A SARIMA approach

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