A Mathematical Model for Locating Potential Central Markets and Arranging Transportation Routes for Oil Palm Transportation in the Upper Southern Part of Thailand

This study aims to create a mathematical model that can be used to predict the amount of oil palm that will be produced at PT. Socfindo in Aceh Tamiang Regency in the coming period. The data used is data on the amount of oil palm that is ready to be produced every month in 2012-2015. The method used is the ARIMA method. The selection of this method is based on the data used, namely time series data. Before carrying out further testing, first, ensure that the data used meets the stationary state. From the test results, it is found that the data used fulfills the stationary state, then it is found that the MA (1) model can be used to predict the time series data. Furthermore, we obtain a model that can be used to predict the volume of oil palm production at PT. Socfindo is: Z_t = a_t-0.4096a_ (t-1) +521.57 With a_t ~ N (0; 29192.72)

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Modeling of Oil Palm Fruit Maturity for the Development of an Outdoor Vision System

International Journal of Food Engineering ◽

10.2202/1556-3758.1396 ◽

2008 ◽

Vol 4 (3) ◽

Cited By ~ 5

Author(s):

Muhammad Hudzari Razali ◽

Wan Ishak Wan Ismail ◽

Abd. Rahman Ramli ◽

Md. Nasir Sulaiman

Keyword(s):

Mathematical Model ◽

Oil Palm ◽

Vision System ◽

Linear Regression Analysis ◽

Data Logger ◽

Linear Change ◽

Palm Fruit ◽

Important Indicator ◽

Pixel Value ◽

The Mathematical Model

Color is the most important indicator farmers use to determine the maturity of the oil palm fruit called fresh fruit bunches (FFB) in the manual harvesting process. To automate the harvesting operation, the development of a vision system will replace the human eye for mature FFB recognition. In real plantation environments, variations in the daylight caused the light intensity to change, thus becoming the main issue that affects the automatic recognition process. In this study, the matured FFB was captured using a Sony digital Handycam on the day shift period. At the same time period of daylight intensity, a unit on foot candles (FC) also was simultaneously recorded using an Extech lightmeter data logger. From the linear regression analysis process, the mathematical model shows that there is a linear change between daylight intensity with the pixel value of the components green and blue. For the pixel value of the red component, the value will be linear at a maximum of 255 and at a certain intensity. To validate the mathematical model, this equation is used in the development of software for outdoor recognition processes.

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A full body mathematical model of an oil palm harvester

10.1063/1.4931346 ◽

2015 ◽

Cited By ~ 1

Author(s):

NP Tumit ◽

A. S. Rambely ◽

Shamsul BMT ◽

Shahriman A. B. ◽

Ng Y. G. ◽

...

Keyword(s):

Mathematical Model ◽

Oil Palm ◽

Full Body

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Development of Compartmental Mathematical Model of Disease Transmission of Basal Stem Rot in Oil Palm Plantation

International Journal of Innovative Technology and Exploring Engineering - Special Issue ◽

10.35940/ijitee.f3493.049620 ◽

2020 ◽

Vol 9 (6) ◽

pp. 191-194

Keyword(s):

Mathematical Model ◽

Oil Palm ◽

Disease Transmission ◽

Plant Disease ◽

Model Simulation ◽

Equilibrium Points ◽

Crop Protection ◽

Stem Rot ◽

Basal Stem Rot ◽

Oil Palm Plantation

The mathematical modelling is one of the major research areas for mathematician and biologist in understanding the dynamics of transmissible infections. There might also be a mathematical model used to research the dynamics of plant disease and estimate the number of cases of outbreaks. In this research, we developed the compartmental mathematical model of the dynamical spread of transmission of plant disease with reference to basal stem rot (BSR) disease in oil palm plantation. The dynamics of the BSR disease were studied by a prone-contagious-sustained (PCS) compartmental mathematical model involving ordinary differential equations for three classes of hosts; prone, contagious and sustained. The equilibrium points and epidemic threshold conditions were analytically determined and numerical simulations were analyzed to support analytical results. From the numerical results, the solutions converge to each equilibrium state and PCS model simulation indicated that BSR disease has not become endemic. In particular, the threshold parameters that summarize the dynamics of the system will help to choose strategies for crop protection.

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