The Development of a Draft Force Prediction Model for Agricultural Tractors Based on the Discrete Element Method in Loam and Clay Loam

Bae, Bo-Min; Kim, Yeon-Soo; Kim, Wan-Soo; Kim, Yong-Joo; Lee, Sang-Dae; Kim, Taek-Jin

doi:10.3390/agriculture13122205

Agriculture

2023

DOI: 10.3390/agriculture13122205

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The Development of a Draft Force Prediction Model for Agricultural Tractors Based on the Discrete Element Method in Loam and Clay Loam

Bo-Min Bae,

Yeon-Soo Kim,

Wan-Soo Kim

et al.

Abstract: In the field of agricultural machinery, various empirical field tests are conducted to measure design loads for the optimal design and implementation of tractors. However, conducting field tests is costly and time-consuming, with many constraints on weather and field soil conditions, and research utilizing simulations has been proposed as an alternative to overcome these shortcomings. The objective of this study is to develop a DEM-based draft force prediction model that reflects differences in soil properties… Show more

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Cited by 2 publications

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Soil Mechanical Systems and Related Farming Machinery

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Nam

2024

Agriculture

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Soil Mechanical Systems and Related Farming Machinery

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Nam

2024

Agriculture

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Particle Movement in DEM Models and Artificial Neural Network for Validation by Using Contrast Points

Černilová,

Kuře,

Chotěborský

et al. 2024

Technologies

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The calibration and validation of input parameters in the Discrete Element Method (DEM) are crucial for accurately simulating physical processes, typically achieved through experimental particle behavior analysis. Enhancing the accuracy of DEM models allows for more reliable predictions of material behavior, which is essential for optimizing engineering applications that involve particulate materials. In this study, we present a methodology for analyzing the movement properties of particulate materials, employing a combination of Caliscope software to obtain the real-world co-ordinates based on pixel values from both cameras and artificial neural networks for regression as straightforward and efficient tools. This approach enables the validation and calibration of digital twins of particulate matter systems with respect to motion characteristics. The method of contrast points was utilized to acquire spatial co-ordinates of particulate material movement from experimental measurements, facilitating precise trajectory determination and the subsequent verification of simulation predictions. The neural network analysis demonstrated high accuracy, achieving R2 values of 0.9988, 0.9972, and 0.9982 for the X–, Y–, and Z–axes, respectively. The standard deviation between the predicted and actual co-ordinates was found to be 1.8 mm. A comparative analysis of particle trajectories from both the model and experimental data indicated strong agreement, underscoring the soundness and reliability of this approach.

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The Development of a Draft Force Prediction Model for Agricultural Tractors Based on the Discrete Element Method in Loam and Clay Loam

Cited by 2 publications

References 29 publications

Soil Mechanical Systems and Related Farming Machinery

Soil Mechanical Systems and Related Farming Machinery

Particle Movement in DEM Models and Artificial Neural Network for Validation by Using Contrast Points

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