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Cho, Yongjun;Yun, Haeyong;Hong, Hyunggil;Oh, Jangseok;Park, Hui Chang;Kang, Minsu;Park, Kwanhyung;Seo, Kabho;Kim, Sunduck;Lee, Youngtae
- Journal of the Korean Society of Manufacturing Process Engineers
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- v.20 no.9
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- pp.70-75
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- 2021
We developed a platform that was capable of autonomous steering in a furrow environment. It was developed to autonomously control steering by recognizing the furrow using a laser distance, three-axis tilt, and temperature sensor. The performance evaluation indicated that the autonomous steering success rate was 99.17%, and it was possible to climb up to 5° on the slope. The usage time was approximately 40 h, and the maximum speed was 6.7 km/h.
https://doi.org/10.14775/ksmpe.2021.20.09.070 인용 PDF KSCI

Kim, Dongwoo;Hong, Hyunggil;Cho, Yongjun;Yun, Haeyong;Oh, Jangseok;Gang, Minsu;Park, Huichang;Seo, Kabho
- Journal of the Korean Society of Manufacturing Process Engineers
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- v.20 no.10
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- pp.80-87
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- 2021
Our study introduces an improved modular agricultural platform to provide convenience to agricultural workers. We upgrade the platform design in three parts, namely, by adding a 458 pattern tire, electricity control, and four-wheel steering function, to improve the platform performance. Results showed that the upgrades enhanced the platform performance and reduced its overall weight as compared with the existing platform. To demonstrate the performance of our improved platform, we conducted five types of experiments with respect to the climbing angle, variable width, attitude control, speed, and obstacle passing.
https://doi.org/10.14775/ksmpe.2021.20.10.080 인용 PDF KSCI

Cho, Yongjun;Woo, Seong Yong;Song, Su Hwan;Hong, Hyung Gil;Yun, Haeyong;Oh, Jang Seok;Kim, Junseong;Kim, Dong Woo;Seo, Kab Ho;Kim, Dae Hee
- The Journal of Korea Robotics Society
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- v.15 no.2
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- pp.124-130
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- 2020
This paper designed modular agricultural robotic platform capable of a variety of agricultural tasks to address the problems caused by a decline in agricultural populations and an increase in average age. We propose a modular robotic platform that can perform many tasks required in field farming by replacing only work modules with common robotic platforms. This platform is capable of steering while driving on four wheels in an upland environment where farm work is performed, and an attitude control module is attached to each drive module to control the attitude of the platform. In addition, the width of the platform is designed to be variable in order to operate in various ridges according to the crop cultivation method. Finally, we evaluated five items: variable width, gradient, attitude control angle, step and road speed in order to carry out the farming industry while maintaining a stable posture.
https://doi.org/10.7746/jkros.2020.15.2.124 인용 PDF KSCI