工业技术创新
工業技術創新
공업기술창신
Industrial Technology Innovation
2015年
5期
495-501
,共7页
纺纱质量%预测模型%鱼骨图%旋转森林
紡紗質量%預測模型%魚骨圖%鏇轉森林
방사질량%예측모형%어골도%선전삼림
Yarn quality%Prediction mode%Fishbone diagram%Rotation forest
原棉质量的影响因素与纱线质量的关系具有不确定性,针对该问题,综合应用相关分析法、鱼骨图理论及旋转森林原理构建原棉质量对纱线质量的预测模型.采用相关分析法及原因型鱼骨图模型分析原棉影响因素与纱线质量的关联度,计算各因素权重.用实测18组纺纱数据对影响因素加权的旋转森林模型进行训练,测试结果良好.用13组数据作为测试数据,进行量预测,并且与其他预测模型进行对比.研究结果表明:鱼骨图模型可获得因素与纱线质量的关系,量化输入变量的重要性;结合旋转森林预测模型能更好地考虑各因素对纱线质量的综合影响,与其他方法进行比较,验证了鱼骨图-旋转森林模型在纱线质量预测中具有较高的精确度.
原棉質量的影響因素與紗線質量的關繫具有不確定性,針對該問題,綜閤應用相關分析法、魚骨圖理論及鏇轉森林原理構建原棉質量對紗線質量的預測模型.採用相關分析法及原因型魚骨圖模型分析原棉影響因素與紗線質量的關聯度,計算各因素權重.用實測18組紡紗數據對影響因素加權的鏇轉森林模型進行訓練,測試結果良好.用13組數據作為測試數據,進行量預測,併且與其他預測模型進行對比.研究結果錶明:魚骨圖模型可穫得因素與紗線質量的關繫,量化輸入變量的重要性;結閤鏇轉森林預測模型能更好地攷慮各因素對紗線質量的綜閤影響,與其他方法進行比較,驗證瞭魚骨圖-鏇轉森林模型在紗線質量預測中具有較高的精確度.
원면질량적영향인소여사선질량적관계구유불학정성,침대해문제,종합응용상관분석법、어골도이론급선전삼림원리구건원면질량대사선질량적예측모형.채용상관분석법급원인형어골도모형분석원면영향인소여사선질량적관련도,계산각인소권중.용실측18조방사수거대영향인소가권적선전삼림모형진행훈련,측시결과량호.용13조수거작위측시수거,진행량예측,병차여기타예측모형진행대비.연구결과표명:어골도모형가획득인소여사선질량적관계,양화수입변량적중요성;결합선전삼림예측모형능경호지고필각인소대사선질량적종합영향,여기타방법진행비교,험증료어골도-선전삼림모형재사선질량예측중구유교고적정학도.
The relationship between factors of raw cotton quality and yarn quality is uncertain,so correlation analysis, fishbone diagram, and rotation forest algorithm are used to make the model of yarn quality prediction model from the perspective of quantitative analysis. Among them, correlation analysis and fishbone diagram are used to analysis the correlation degree of influence factors of raw cotton and yarn quality . Then the correlation degree is as the weight to predict by rotation forest algorithm.Eighteen groups of data are taken as training data. Additional thirteen groups as test data to verify it and compare with the other prediction method. The results show that the fishbone diagram can obtain the relationships among indexes and yarn quality, and the indexes' weights.The proposed method considering the mainfold factors can improve the prediction precision of raw cotton quality for yarn quality.Through compared with the other test data,the result shows that the model has a high accuracy.