Abstract
Accurate and real-time product demand forecasting is the need of the hour in the world of supply chain management. Predicting future product demand from historical sales data is a highly non-linear problem, subject to various external and environmental factors. In this work, we propose an optimised forecasting model - an extreme learning machine (ELM) model coupled with the Harris Hawks optimisation (HHO) algorithm to forecast product demand in an e-commerce company. ELM is preferred over traditional neural networks mainly due to its fast computational speed, which allows efficient demand forecasting in real-time. Our ELM-HHO model performed significantly better than ARIMA models that are commonly used in industries to forecast product demand. The performance of the proposed ELM-HHO model was also compared with traditional ELM, ELM auto-tuned using Bayesian Optimisation (ELM-BO), Gated Recurrent Unit (GRU) based recurrent neural network and Long Short Term Memory (LSTM) recurrent neural network models. Different performance metrics, i.e., Root Mean Squared Error (RMSE), Mean Absolute Percentage Error (MAPE) and Mean Percentage Error (MPE) were used for the comparison of the selected models. Horizon forecasting at 3 days and 7 days ahead was also performed using the proposed approach. The results revealed that the proposed approach is superior to traditional product demand forecasting models in terms of prediction accuracy and it can be applied in real-time to predict future product demand based on the previous week’s sales data. In particular, considering RMSE of forecasting, the proposed ELM-HHO model performed 62.73% better than the statistical ARIMA(7,1,0) model, 40.73% better than the neural network based GRU model, 34.05% better than the neural network based LSTM model, 27.16% better than the traditional non-optimised ELM model with 100 hidden nodes and 11.63% better than the ELM-BO model in forecasting product demand for future 3 months. The novelty of the proposed approach lies in the way the fast computational speed of ELMs has been combined with the accuracy gained by tuning hyperparameters using HHO. An increased number of hyperparameters has been optimised in our methodology compared to available models. The majority of approaches to improve the accuracy of ELM so far have only focused on tuning the weights and the biases of the hidden layer. In our hybrid model, we tune the number of hidden nodes, the number of input time lags and even the type of activation function used in the hidden layer in addition to tuning the weights and the biases. This has resulted in a significant increase in accuracy over previous methods. Our work presents an original way of performing product demand forecasting in real-time in industry with highly accurate results which are much better than pre-existing demand forecasting models.
Highlights
In today’s highly competitive manufacturing environment, product demand forecasting plays a critical role in the effective management of inventories
Traditional time series forecasting models like Autoregressive integrated moving average (ARIMA) can only be applied on stationary time series, and fail to capture non-linearity introduced in sales data due to market volatility, seasonal factors etc
We introduced a hybrid neural network based demand forecasting model - extreme learning machine (ELM) tuned by Harris hawks optimiser which is able to accurately forecast non-linear sales data of products belonging to an e-commerce store
Summary
In today’s highly competitive manufacturing environment, product demand forecasting plays a critical role in the effective management of inventories. Companies that can accurately forecast market demand can take action to ensure that they hold the correct stocks to maximise sales and profit. Efficient and accurate forecasting of demand enables supply chain managers to make intelligent decisions about various aspects of their business. It helps them judge their business potential in the current scenario, optimise inventory, improve inventory turnover rates and decrease holding costs. Estimating future demand beforehand helps to identify possible upcoming difficulties and take steps to correct them such as increasing the number of workers during high sales periods. Data mining approaches are needed to model and make sense of this data to make accurate future predictions about product demand
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