Journal of Jilin University(Engineering and Technology Edition) ›› 2019, Vol. 49 ›› Issue (6): 2019-2026.doi: 10.13229/j.cnki.jdxbgxb20180910

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Monochrome fruit growth detection internet architecture based oncomprehensive indicator quality evaluation algorithm

En-ze LIU(),Wen-fu WU()   

  1. College of Biological and Agricultural Engineering, Jilin University, Changchun 130022, China
  • Received:2018-09-03 Online:2019-11-01 Published:2019-11-08
  • Contact: Wen-fu WU E-mail:38836050@qq.com;wwfzlb@126.com

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Abstract:

To solve the problem of quality detection of large-scale fruit crops, this paper proposes an Internet architecture for monochrome fruit growth status detection based on comprehensive index quality evaluation algorithm. Through the RGB color model, convolution exploration method and Gabor filtering, the color depth, size and appearance damage degree of the fruit were analyzed. The three results were comprehensively analyzed, and the fruit quality was divided into 6 grades for the growing fruit quality evaluation. The algorithm was integrated into the Internet architecture. Based on the traditional industrial system structure, the network interconnection, data intelligence and security between the system and the outside world were improved. The structural optimization of the fruit growth detection Internet architecture was realized, and the structure flat development was mad and structure network, data interconnection, security level integration were promoted, which was used in real-time monitoring of crops and recording the fruit growth process. Experiments conducted by common monochrome fruits in Changchun show that the algorithms in this architecture can formulate different grading evaluation standards according to specific types, improve the interaction ability and quality evaluation efficiency between the system and the outside world, and reduce manual input.

Key words: agricultural engineering, comprehensive indicator quality evaluation, growth detection, internet architecture, RGB color model, convolution exploration, Gabor filtering

CLC Number: 

  • TP393

Fig.1

Banana growing up at different times"

Fig.2

Damaged crops"

Table 1

Quality grading standards"

等级 分档 符合的要求
1 s g n ( F - F 6 ) + s g n ( T - T 6 ) + s g n ( D - D 6 ) = 3
s g n ( F - F 6 ) + s g n ( T - T 6 ) + s g n ( D - D 6 ) = 2
s g n ( F - F 6 ) + s g n ( T - T 6 ) + s g n ( D - D 6 ) = 1
2 s g n ( F - F 5 ) + s g n ( T - T 5 ) + s g n ( D - D 5 ) = 3
s g n ( F - F 5 ) + s g n ( T - T 5 ) + s g n ( D - D 5 ) = 2
s g n ( F - F 5 ) + s g n ( T - T 5 ) + s g n ( D - D 5 ) = 1
3 s g n ( F - F 4 ) + s g n ( T - T 4 ) + s g n ( D - D 4 ) = 3
s g n ( F - F 4 ) + s g n ( T - T 4 ) + s g n ( D - D 4 ) = 2
s g n ( F - F 4 ) + s g n ( T - T 4 ) + s g n ( D - D 4 ) = 1
4 s g n ( F - F 3 ) + s g n ( T - T 3 ) + s g n ( D - D 3 ) = 3
s g n ( F - F 3 ) + s g n ( T - T 3 ) + s g n ( D - D 3 ) = 2
s g n ( F - F 3 ) + s g n ( T - T 3 ) + s g n ( D - D 3 ) = 1
5 s g n ( F - F 2 ) + s g n ( T - T 2 ) + s g n ( D - D 2 ) = 3
s g n ( F - F 2 ) + s g n ( T - T 2 ) + s g n ( D - D 2 ) = 2
s g n ( F - F 2 ) + s g n ( T - T 2 ) + s g n ( D - D 2 ) = 1
6 s g n ( F - F 1 ) + s g n ( T - T 1 ) + s g n ( D - D 1 ) = 3
s g n ( F - F 1 ) + s g n ( T - T 1 ) + s g n ( D - D 1 ) = 2
s g n ( F - F 1 ) + s g n ( T - T 1 ) + s g n ( D - D 1 ) = 1

Fig.3

Existing agricultural internet architecture"

Fig.4

Target agricultural internet architecture"

Fig.5

Data interaction network topology"

Table 2

Classification results of pear"

分类 本文算法 文献[14]方法
识别数 正确数 正确率/% 识别数 正确数 正确率/%
优质品 996 995 99.7 984 980 95.7
一般品 1000 998 971 951
残次品 998 998 964 942

Table 3

Classification results of apple"

分类 本文算法 文献[15]方法
识别数 正确数 正确率/% 识别数 正确数 正确率/%
优质品 999 999 99.6 985 982 95.8
一般品 996 996 962 953
残次品 995 994 945 939

Table 4

Classification results of banana"

分类 本文算法 文献[16]方法
识别数 正确数 正确率/% 识别数 正确数 正确率/%
优质品 992 990 99.4 975 953 95.1
一般品 997 995 952 942
残次品 998 998 968 956

Fig.6

Apple shooting situation"

Table 5

Planting cost table"

消耗物 工业互联网 人工
化肥 质量/kg 1 772 1 749
价值/元 8 442 8 345
耗电量 电量/(kW·h) 1 421 1 054
价值/元 852 612
农作物 价值/元 13 000 13 000
设备费用 价值/元 20 000 13 000
人工费 价值/元 7 000 50 000
场地费 价值/元 4 000 5 000
总成本 价值/元 53 294 89 957
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