果蔬分拣设备研究现状及发展趋势

doi:10.13733/j.jcam.issn.2095‑5553.2024.08.018

摘要/Abstract

摘要： 果蔬商品化产后处理能力较低导致我国的果蔬在国际市场上核心竞争力不足，其中后处理最主要的步骤就是果蔬分拣，而果蔬分拣设备能够有效的提高分拣效率，解放劳动力。分别从市场和科研两方面阐述国内外果蔬分拣设备的现状，分析现有果蔬分拣设备存在的问题，讨论未来果蔬分拣的研究趋势，提出人工智能与机器视觉相结合的果蔬外部品质分拣技术和近红外光谱分析的内部品质分拣技术将是近期的研究热点，同时对易损果蔬采后分拣场景提出一种机械臂抓取式分拣设备方案，为后期解决娇嫩易损、精品果蔬的分拣问题提供参考。

关键词: 果蔬分拣设备, 发展趋势, 机器视觉, 近红外光谱, 机械臂

Abstract: The low post‑production processing capacity of fruits and vegetables leads to the lack of core competitiveness of fruits and vegetables in the international market. The most important step of post‑processing is fruit and vegetable sorting, and the fruit and vegetable sorting equipment can effectively improve the sorting efficiency and liberate the labor force. This paper expounds the current situation of fruit and vegetable sorting equipment at home and abroad from the market and scientific research, and also analyzes the problems existing in the current fruit and vegetable sorting equipment, discusses the research trend of fruit and vegetable sorting in the future, and points out that the external quality sorting technology of fruit and vegetable combined with artificial intelligence and machine vision and the internal quality sorting technology of near‑infrared spectrum analysis will be the recent research focus. At the same time, a mechanical arm grabbing sorting equipment scheme is proposed for the post‑harvest sorting scene of vulnerable fruits and vegetables, which provides a reference for solving the sorting problem of delicate, vulnerable and high‑quality fruits and vegetables in the later stage.

Key words: fruit and vegetable sorting equipment, development trends, machine vision, near?infrared spectrum, robotic arm

中图分类号:

TP242.6
S37

柳军, 孔杰, 皮杰, 周成钢. 果蔬分拣设备研究现状及发展趋势[J]. 中国农机化学报, 2024, 45(8): 120-125.

Liu Jun, , Kong Jie, Pi Jie, Zhou Chenggang. Research status and development trend of fruit and vegetable sorting equipment[J]. Journal of Chinese Agricultural Mechanization, 2024, 45(8): 120-125.

参考文献

[ 1 ] 周雪青, 张晓文, 邹岚, 等. 水果自动检测分级设备的研究现状和展望[J]. 农业技术与装备, 2013（2）: 9-11.
Zhou Xueqing, Zhang Xiaowen, Zou Lan, et al. Research status and prospect of fruit automatic detection and grading equipment [J]. Agricultural Technology & Equipment, 2013（2）: 9-11.
[ 2 ] 李素庭. 国外水果分选分级设备[J]. 粮油加工与食品机械, 1983（11）: 1-8.
[ 3 ] 李梅. 水果分拣技术的研究现状与发展[J]. 江苏理工学报, 2018, 24（2）: 121-124.
Li Mei. Research status and development of fruit sorting technology [J]. Journal of Jiangsu Science and Technology, 2018, 24（2）: 121-124.
[ 4 ] 白菲, 孟超英. 水果自动分级技术的现状与发展[J]. 食品科学, 2005（S1）: 145-148.
Bai Fei, Meng Chaoying. Research progress and commercialization of the automatic classification technology [J]. Food Science, 2005 （S1）: 145-148.
[ 5 ] 张方明, 应义斌. 水果分级机器人关键技术的研究和发展[J]. 机器人技术与应用, 2004（1）: 33-37.
Zhang Fangming, Ying Yibing. Research and development of key technologies of fruit grading robot [J]. Robot Technique and Application, 2004（1）: 33-37.
[ 6 ] Blasco J, Aleixos N, Molto E. Computer vision detection of peel defects in citrus by means of a region oriented segmentation algorithm [J]. Journal of Food Engineering, 2007, 81（3）: 535–543.
[ 7 ] Kondo N. Robotization in fruit grading system [J]. Sensing and Instrumentation for Food Quality and Safety, 2009, 3（1）: 81-87.
[ 8 ] Costa C, Menesatti P, Paglia G, et al. Quantitative evaluation of Tarocco sweet orange fruit shape using optoelectronic elliptic Fourier based analysis [J]. Postharvest Biology and Technology, 2009, 54（1）: 38-47.
[ 9 ] Zou Xiaobo, Zhao Jiewen, Li Yanxiao. In‑line detection of apple defects using three color cameras system [J]. Computers and Electronics in Agriculture, 2010, 70（1）: 129–134.
[10] Esehaghbeygi A, Ardforoushan M, Monajemi S. A. H., et al. Digital image processing for quality ranking of saffron peach [J]. International Agrophysics, 2010, 24（2）: 115-120.
[11] ElMasry G, Cubero S, Molto E, et al. In‑line sorting of irregular potatoes by using automated computer: Based machine vision system. Journal of Food Engineering, 2012, 112（1-2）: 60-68.
[12] Dubey S R, Jalal A S, Apple disease classification using color, texture and shape features from images [J]. Signal, Image and Video Processing, 2015, 10（5）: 819-826.
[13] Nandi C S, Tudu B, Koley C. A machine vision technique for grading of harvested mangoes based on maturity and quality [J]. IEEE Sensors Journal, 2016（16）: 6387-6396.
[14] Zhang Y, Philips P, Wang S, et al. Fruit classification by biogeography: Based optimization and feed forward neural network [J]. Journal of Knowledge Engineering （Wiley）, 2016, 33（3）: 239-253.
[15] Naik S, Patel B. Thermal imaging with fuzzy classifier for maturity and size based non‑destructive Mango （Mangifera Indica L.） grading [C]. International Conference on Emerging Trends & Innovation in ICT, 2017b: 15-20.
[16] Vishal A, Kailas P, Sahadeo D. MNet: A framework to reduce fruit image misclassification [J]. ISI, 2021, 26（2）: 159-170.
[17] Amin M, Hafeez M, Awais Q. Rotten‑fruit‑sorting robotic arm: （Design of low complexity CNN for embedded system） [J]. Engineering Proceedings, 2022, 12（1）: 109.
[18] Sabzi S, Nadimi M, Abbaspour‑Gilandeh Y. Non‑destructive estimation of physicochemical properties and detection of ripeness level of apples using machine vision [J]. International Journal of Fruit Science, 2022, 22（1）: 628-645.
[19] Noutfia Y, Ropelewska E. Innovative models built based on image textures using traditional machine learning algorithms for distinguishing different varieties of moroccan date palm fruit （phoenix dactylifera L.） [J]. Agriculture‑Basel, 2023, 13（1）: 26.
[20] Subir K, Subeesh A, Kumkum D, et al. Development of an optimally designed real‑time automatic citrus fruit grading‑sorting machine leveraging computer vision: Based adaptive deep learning model [J].Engineering Applications of Artificial Intelligence, 2023,120:105826.
[21] 谢和生. FJ-1型水果分级机的研究[J]. 粮油加工与食品机械, 1984（8）: 36-39.
[22] 邹小波, 赵杰文. 用遗传算法快速提取近红外光谱特征区域和特征波长[J]. 光学学报, 2007（7）: 1316-1321.
Zou Xiaobo, Zhao Jiewen. Fast extraction of near‑infrared spectral characteristic region and characteristic wavelength using genetic algorithm [J]. Journal of Optics, 2007 （7）: 1316-1321
[23] 王干. 车载式脐橙采后分级设备的研究[D]. 镇江：江苏大学, 2018.
Wang Gan. Study on vehicle‑mounted classification equipment for post‑harvest navel orange [D]. Zhenjiang: Jiangsu University, 2018.
[24] Yu Jianhong, Miao Weijie, Zhang Guangben, et al. Target positioning and sorting strategy of fruit sorting robot based on image processing [J]. Traitement du Signal, 2021, 38（3）: 797-805.
[25] Liu Yande, Rao Yu, Sun Xundong, et al. Size effect on the near‑infrared spectroscopy detection model of navel orange [J]. Spectros Copy and Spectral Analysis, 2020, 40（10）.
[26] 魏新华, 周杏鹏, 李法德, 等. 水果机器视觉分选机滚子式输送翻转机构优化设计[J]. 农业机械学报, 2007（9）: 98-102.
Wei Xinhua, Zhou Xingpeng, Li Fade, et al. Optimum design of fruits roller conveyor of machine vision grader [J]. Transactions of the Chinese Society for Agricultural Machinery, 2007（9）: 98-102.
[27] 姜小刚, 朱明旺, 姚金良, 等. 基于近红外光谱技术苹果尺寸差异对糖度模型适用性的影响[J]. 华中农业大学学报, 2024, 43（1）: 242-248.
Wei XiaoGang, Zhu Mingwang, Yao Jinliang, et al. Effects of apple size on the applicability of the model for predicting the content of sugar based on near infrared spectroscopy [J]. Journal of Huazhong Agricultural University, 2024, 43（1）: 242-248.

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