|Table of Contents|

Application of Improved Radar Chart Analysis Method in Soybean Variety Selection and Breeding(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2020年06期
Page:
862-868
Research Field:
Publishing date:

Info

Title:
Application of Improved Radar Chart Analysis Method in Soybean Variety Selection and Breeding
Author(s):
CHANG Shi-hao GENG Zhen YANG Qing-chun SHU Wen-tao LI Jin-hua LI Qiong ZHANG Bao-liang ZHANG Dong-hui
(Cash Crop Research Institute, Zhoukou Academy of Agricultural Sciences,Zhoukou 466001, China)
Keywords:
Soybean Variety selecting Radar map Quantify Comprehensive assessment
PACS:
-
DOI:
10.11861/j.issn.1000-9841.2020.06.0862
Abstract:
In order to solve the problem of inconsistency of final results caused by different order of evaluation indexes and interaction between adjacent evaluation indexes in the analysis process of traditional radar chart, the traditional radar chart analysis method was improved by introducing the weight of evaluation indexes. The ranking method of ‘seat order’ was adopted for the first time to sort the evaluation indexes base on the weight of valuation indexes. The average value of the angles of adjacent evaluation indexes was taken as the included angle value. This study calculated the n-sided area and perimeter of the evaluation object, introduced the evaluation function to calculate the comprehensive evaluation value of each evaluation object and carried out quantitative evaluation. The 15 testing varieties in south group B of Huang-Huai-Hai summer sowing soybean were used as the evaluation object to map radars. The compatibility of evaluation indexes of Zhoudou 33, Xingdou 6 and Hedou 33 were better, the compatibility of Lindou 11, Shanning 23 and Zhonghuang 202 were worse, and the other 9 evaluation objects tend to be in the middle. The evaluation results of the improved radar chart analysis method were basically consistent with that of only relying on the yield, and with a little difference. Xingdou 6, Xiangfeng 2 and Lindou 11 had the biggest difference in ranking results. It is suggested that the improved radar chart analysis method could make up for the deficiency in the evaluation of single character.

References:

[1]Zhang H J,Hou Y Y, Zhang J Y, et al. A new method for nondestructive quality evaluation of the resistance spot welding based on the radar chart method and the decision tree classifier[J]. The International Journal of Advanced Manufacturing Technology, 2015, 78: 841-851.[2]乔鹏程, 吴正国, 李辉.基于改进雷达图法的电能质量综合评估方法[J].电力自动化设备,2011,31(6): 88-92. (Qiao P C, Wu Z G, Li H. Power quality synthetic evaluation based on improved radar chart[J]. Electric Power Automation Equipment, 2011,31(6): 88-92.)[3]朱唯韦.基于主客观权重的配电系统电能质置综合评估[D]. 合肥: 安徽大学, 2019. (Zhu W W. Power quality evaluation of distribution system based on subjective and objective weights[D]. Hefei: Anhui University, 2019.)[4]程志友, 朱唯韦, 陶青, 等. 基于改进雷达图的配电系统电能质量评估方法[J].电测与仪表,2019,56(14):34-39. (Cheng Z Y, Zhu W W, Tao Q, et al. Power quality evaluation method of distribution system based on improved radar chart[J]. Electrical Measurement and Instrumentation, 2019,56(14): 34-39.)[5]王梓琪, 肖思曲, 程雨,等. 贵州省医疗保障能力综合评价:基于TOPSIS、聚类、雷达图实证研究[J]. 中国医院,2019,23(12):17-20.(Wang Z Q, Xiao S Q, Cheng Y, et al. The comprehensive evaluation of medical security capability in Guizhou Province: An empirical study based on TOPSIS, clustering and radar chart[J]. Chinese Hospitals,2019,23(12):17-20.)[6]李健, 蔡红丹, 申利未, 等. 基于EGM-雷达图分析法的数字医疗信息服务水平综合评价[J].医学与社会,2020,33(2): 39-44. (Li J, Cai H D, Shen L W, et al. Comprehensive evaluation of digital medical information service level based on EGM-Radar chart analysis[J]. Medicine and Society, 2020, 33(2): 39-44.)[7]苏顺宝. 基于多维评价模型的长春市某中学教学评价系统的研究[D].大连: 大连海事大学, 2017. (Su S B. Study on the teaching evaluation system of a middle school in Changchun based on Multi-dimensional evaluation model[D]. Dalian: Dalian Maritime University,2017.)[8]白伟, 孙占祥, 张立祯, 等. 基于雷达图分析的耕层构造效应综合评价[J].生态学杂, 2020(4):1369-1376. (Bai W, Sun Z X, Zhang L Z, et al. Comprehensive evaluation of plough layer structuring effect based on radar chart method[J].Chinese Journal of Ecology, 2020(4):1369-1376.)[9]邓禄军, 夏锦慧, 卢扬, 等.雷达图分析法在马铃薯品种特征综合评价中的应用[J].贵州农业科学,2013,41(7):59-62. (Deng L J, Xia J H, Lu Y, et al. Application of radar chart method in comprehensive evaluation on varietal characteristics of potato[J]. Guizhou Agricultural Science,2013,41(7):59-62.)[10]刘哲, 王虎, 杨建宇, 等.品种筛选多环境测试作图分析方法[J].农业工程学报,2011,27(10):142-147. (Liu Z, Wang H, Yang J Y, et al. Analytical graphics for multi-environment trials of breed selection[J]. Transactions of the Chinese Society of Agricultural Engineering,2011,27(10):142-147.)[11]封俊. 基于VBA雷达图的攀枝花烤烟质量综合分析[D].成都: 四川农业大学,2017. (Feng J. Base on VBA radar chart of flue-cured tobacco quality comprehensive analysis in Panzhihua[D]. Chengdu: Sichuan Agricultural University,2017.)[12]杜薇, 王昌全, 李冰, 等.优化雷达图法在烤烟上部叶外观质量综合评价中的应用[J].中国烟草科学,2015,36(1): 24-29.(Du W, Wang C Q, Li B, et al. Application of optimized radar-graph method on comprehensive evaluation of appearance quality of upper leaves of flue-cured tobacco[J]. Chinese Tobacco Science,2015,36(1):24-29.)[13]程君奇,曹景林,李亚培,等.基于雷达图的湖北烤烟主要化学成分协调性综合评价[J].湖北农业科学,2016,55(13): 3387-3389.(Cheng J Q, Cao J L, Li Y P, et al. Comprehensive evaluation on coordination characters of flue-cured tobacco main chemical components base on radar graph[J]. Hubei Agricultural Sciences,2016,55(13):3387-3389.)[14]郑惠莉,刘陈,翟丹妮.基于雷达图的综合评价方法[J].南京邮电学院学报(自然科学版),2001(2):75-79. (Zheng H L, Liu C, Zhai D N. Comprehensive evaluation method based on radar chart[J]. Journal of Nanjing University of Posts and Telecommunications(Natural Science Edition), 2001(2):75-79.)[15]王永瑜.雷达图定量综合评价方法中存在的问题及改进措施[J].统计教育,2007(1): 18-20. (Wang Y Y. Problems and improvement measures in the quantitative comprehensive evaluation method of radar map[J]. Statistical Education, 2007(1): 18-20.)[16]魏春阳,王信民,蔡宪杰,等.基于雷达图的烤烟外观质量综合评价[J].烟草科技,2008(12):57-60.(Wei C Y, Wang X M, Cai X J, et al. Comprehensive evaluation of appearance quality of fiue-cured tobacco based on radar graph[J]. Tobacco Science and Technology, 2008(12):57-60.)[17]魏春阳,王信民,蔡宪杰,等.基于雷达图的烤烟烟叶主要化学成分协调性综合评价方法[J].中国烟草学报,2009,15(5):48-53, 57. (Wei C Y, Wang X M, Cai X J, et al. Radar-graph based comprehensive evaluation method on main chemical components and their coordination characters in flue-cured tobacco[J]. Acta Tabacaria Sinica, 2009,15(5):48-53, 57.)[18]李潇潇, 高钰琪, 游海燕, 等.雷达图法的改进及其在军队医院卫勤信息化评价中的应用[J].解放军医院管理杂志, 2009,16 (1):18-20. (Li X X, Gao Y Q, You H Y, et al. Improvement of radar chart and its application in health service information-based evaluation of military hospitals[J]. Hospital Administration Journal of Chinese People′s Liberation Army, 2009,16(1):18-20.)[19]庄彦, 康重庆, 胡江溢, 等.售电市场质量及其综合评价[J].电力系统自动化,2009,33(3): 25-29.(Zhuang Y, Kang C Q, Hu J Y, et al. Quality of power sale market and its comprehensive assessment[J]. Automation of Electric Power Systems,2009,33(3):25-29.)[20]李国栋, 李庚银, 杨晓东, 等.基于雷达图法的电能质量综合评估模型[J].电力系统自动化,2010,34(14):70-74. (Li G D, Li G Y, Yang X D, et al. A comprehensive power quality evaluation model based on radar chart method[J]. Automation of Electric Power Systems,2010,34(14):70-74.)[21]陈勇, 陈潇凯, 李志远, 等. 具有评价结果唯一性特征的雷达图综合评价法[J].北京理工大学学报,2010,30(12):1409-1412. (Chen Y, Chen X K, Li Z Y, et al. Method of radar chart comprehensive evaluation with uniqueness feature[J].Transactions of Beijing Institute of Technology,2010,30(12):1409-1412.)

Memo

Memo:
-
Last Update: 2020-12-25