DOIONLINE

DOIONLINE NO - IJAECS-IRAJ-DOIONLINE-15285

Publish In
International Journal of Advances in Electronics and Computer Science-IJAECS
Journal Home
Volume Issue
Issue
Volume-6,Issue-3  ( Mar, 2019 )
Paper Title
Developing Model for Customer Demand Forecasting and Inventory Management by the Single Exponential Smoothing Algorithm
Author Name
Prapai Sridama
Affilition
Department of Computer Science, Faculty of Science and Technology, Bansomdejchaopraya Rajabhat University, Bangkok 10600, Thailand
Pages
72-77
Abstract
The objective in this research is to develop modeling for customer demand forecasting and inventory management by exponential smoothing algorithm. The perishable goods are tested in this modeling. Because of Thailand has many agricultural products and makes profit from those products but control of this type of goods is also problematic. Then the forecasting model is created to apply in planning the quantity of goods to warehouse for the lowest volume of storage. Sale data volumes of a wholesale of pork chop at Bungkan province are recorded in this research. The training data sets are the volumes of pork chop in the past 350 days for the forecasting model. The experiment results in this research found that the single exponential smoothing algorithm is higher that the adaptive-response-rate single exponential smoothing algorithm and the Holt’s two-parameter linear exponential smoothing algorithm. Then the single exponential smoothing (SES) algorithm is selected and is applied to use for developing in the perishable goods (PG) model. The advantage of this research is making profit more than the old system that this mode that this model gives equal 120,320 Thai Baht or 3,758.82 USD while the old system is 99,950 Thai Baht or 3,122 USD. Moreover, the PG model can decrease inventory balance more than the old system that is 220 kilograms approximately. Keywords- Single Exponential Smoothing Algorithm, Adaptive-Response-Rate Single Exponential Smoothing Algorithm, And Holt’s Two-Parameter Linear Exponential Smoothing Algorithm.
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