Real-time grain breakage sensing for rice combine harvesters using machine vision technology

Jin Chen,Mengna Han,Rong Zou,Yi Lian,Shuai Zhang,Xiaobo Ning

doi:10.25165/j.ijabe.20201303.5478

Jin Chen, Mengna Han + Show 4 more

Open Access

https://doi.org/10.25165/j.ijabe.20201303.5478

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Abstract

Breakage rate is one of the most important indicators to evaluate the harvesting performance of a combine harvester. It is affected by operating parameters of a combine such as feeding rate, the peripheral speed of the threshing cylinder and concave clearance, and shows complex non-linear law. Real-time acquisition of the breakage rate is an effective way to find the correlation of them. In addition, real-time monitoring of the breakage rate can help the driver optimize and adjust the operating parameters of a combine harvester to avoid the breakage rate exceeding the standard. In this study, a real-time monitoring method for the grain breakage rate of the rice combine harvester based on machine vision was proposed. The structure of the sampling device was designed to obtain rice kernel images of high quality in the harvesting process. According to the working characteristics of the combine, the illumination and installation of the light source were optimized, and the lateral lighting system was constructed. A two-step method of “color training-verification” was applied to identify the whole and broken kernels. In the first step, the local threshold algorithm was used to get the edge of kernel particles in a few training images with binary transformation, extract the color spectrum of each particle in color-space HSL and output the recognition model file. The second step was to verify the recognition accuracy and the breakage rate monitoring accuracy through grabbing and processing images in the laboratory. The experiments of about 2300 particles showed that the recognition accuracy of 96% was attained, and the monitoring values of breakage rate and the true artificial monitoring values had good trend consistency. The monitoring device of grain breakage rate based on machine vision can provide technical supports for the intellectualization of combine harvester. Keywords: combine harvester, breakage rate monitoring, sampling box structure, machine vision, color classification DOI: 10.25165/j.ijabe.20201303.5478 Citation: Chen J, Lian Y, Zou R, Zhang S, Ning X B, Han M N. Real-time grain breakage sensing for rice combine harvesters using machine vision technology. Int J Agric & Biol Eng, 2020; 13(3): 194–199.

Highlights

Combine harvester operate all over the world, harvesting different crops under different environmental conditions[1]
The real-time monitoring of the grain breakage rate can provide the basis for the relevant operating parameters of the threshing system, reduce the grain breakage rate and the energy consumption, and improve the operational performance of the combine harvester
It took 5-6 min to identify all the kernels in a grabbed image artificially, while about 3 s to recognize the kernels by machine vision

Summary

Introduction

Combine harvester operate all over the world, harvesting different crops under different environmental conditions[1]. The working process of a combine is a complex non-linear process, which is influenced by a wide range of parameters, such as crop yield, climate, threshing and cleaning settings[2]. The main performance criteria of a combine harvester are grain purity, damage to kernels and processing loss[3]. The breaking rate refers to the mechanical damage caused by the action on the kernel during harvesting, which is mainly formed in the time of threshing. The higher breakage rate reflects the waste of machine energy, especially the increase of threshing energy consumption. The real-time monitoring of the grain breakage rate can provide the basis for the relevant operating parameters of the threshing system, reduce the grain breakage rate and the energy consumption, and improve the operational performance of the combine harvester

Methods

Results

Conclusion