Journal of Biosystems Engineering

Korean Society for Agricultural Machinery (한국농업기계학회)
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Predicting the Firmness of Apples using a Non-contact Ultrasonic Technique

  • Lee, Sangdae (Department of Biosystems Machinery Engineering, Chungnam National University) ;
  • Park, Jeong-Gil (Department of Biosystems Machinery Engineering, Chungnam National University) ;
  • Jeong, Hyun-Mo (Division of Visual Design, Kyongbuk Science University) ;
  • Kim, Ki-Bok (Center for Safety Measurement, Korea Research Institute of Standards and Science) ;
  • Cho, Byoung-Kwan (Department of Biosystems Machinery Engineering, Chungnam National University)
  • Received : 2013.07.29
  • Accepted : 2013.08.08
  • Published : 2013.09.01
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Abstract

Purpose: Methods for non-destructive estimation of product quality have been reported in various industrial fields, but the application of ultrasonic techniques for the agricultural products of potatoes, pears, apples, watermelons, kiwis and tomatoes etc. have been rarely reported since the application of a contact-type ultrasonic transducer in agricultural products is very difficult. Therefore, this study sought to determine the firmness of apples using non-contact ultrasonic techniques. Methods: For this experiment, an ultrasonic experimental tester using a non-contact ultrasonic transducer was created, and a signal processing program was used to analyze the acquired ultrasonic reflected signal. Also, a universal testing machine was used to measure firmness parameters of the apples such as bioyield strength, a firmness factor, after the ultrasonic tests had been performed. Results: Six distance correction factors were calculated to obtain consistent values of ultrasonic properties regardless of the distance between the transducer and the surface of the subject. We developed prediction models of the bioyield strength using the distance correction factors. Conclusions: The optimum prediction model of the bioyield strength of apples using a non-contact ultrasonic technique was a multiple regression model ($R^2=0.9402$).

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References

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