纤维堆囊菌发酵液中埃博霉素含量的HPLC法分析

采用反馈神经网络结合遗传算法(BPANN-GA)对高效液相色谱(HPLC)法同时测定纤维堆囊菌(Sorangium cellulosum)代谢物中埃博霉素A(Epo A)和埃博霉素B(Epo B)含量的条件进行优化,采用均匀设计(U132)方案对流动相中乙腈的体积分数、色谱柱温度和流动相的pH等3个因素进行实验设计;以色谱函数(COF)值为优化指标,运用双层反馈神经网络建立色谱优化函数(COF)值,考察因素间的预测模型,采用Levenberg-Marquardt backpropagation算法对所建立的神经网络预测模型进行训练,以逼近度(Da)为优化参数,选择预测模型的最适隐含层节点数.最优预测模型预测的COF值与实验值之间的相关系数(R)达到0.98165,采用遗传算法在实验考察范围内进行全局寻优,得到最优化的HPLC分析条件:流动相中乙腈体积分数为29.2%,色谱柱温度为34℃,流动相pH为4.23.在此最优条件下对纤维堆囊菌代谢产物进行HPLC分析,结果表明,该方法对两种埃博霉素色谱峰均具有较好的分离度.

露天矿边坡监测中的小波滤噪与BPANN预测

针对边坡变形量预测难的问题,将小波分析与BP神经网络预测相结合,采用小波变换对边坡变形监测数据进行信噪分离,进而消除观测误差,通过BP神经网络预测模型BPANN对处理后数据进行再处理,对边坡变形量以及变形趋势进行预测。进而提出了一种基于小波变换和BPANN模型对露天矿边坡变形监测数据进行处理分析的方法,并在鞍山某露天矿进行了实际应用。实例结果表明:利用小波去噪与BPANN模型预测的监测点精度达到3 mm,满足二等变形监测的要求,数据处理简便,在露天矿边坡变形监测数据的消噪与预测中具有实际应用价值。

某江段河势演变多因子评价模型研究

基于BPANN模型建立了某江段1980—2008年河势演变的多因子评价模型。评价结果表明:影响整个江段河势演变的因子由大到小依次为岩性类型、地貌类型和比降,其次为岸边水深、河道弯曲系数、岸线类型,植被土壤因子、河心水深等的影响较小。

沸石分子筛碱改性条件的神经网络优化及对氨氮的去除效果

为探讨沸石分子筛的碱改性条件及对废水中氨氮的去除效果,基于NaOH改性沸石分子筛吸附氨氮的正交试验数据,以前期试验确定的5个主要影响因子作为输入层向量,以氨氮吸附率作为输出层向量,采用多层前馈神经网络(BPANN)训练并构建沸石分子筛碱改性条件的5-1-1型BPANN优化设计模型。将所有试验数据分为训练及预测样本集,通过MATLAB图形用户界面设计网络运行系统。运行过程表明该网络收敛速度快,系统误差为0.0004288,网络模拟预测值与试验值相关系数为0.9641。适当拓展正交试验各影响因子的最佳值范围,采用已训练好的BPANN系统预测得到NaOH改性沸石分子筛的最佳条件为:NaOH浓度1.6 mol/L,加热温度85℃,浸渍时间6.5 h,微波功率600 W,微波作用时间2.1 min,在此条件下5次重复试验的氨氮吸附率平均值为82.95%,说明构建的BPANN模型具有较好的训练精度和泛化能力,NaOH改性沸石分子筛可有效去除废水中氨氮。

含提携剂超临界二氧化碳中固体溶解度的BPANN计算

为了更好地预测含提携剂超临界二氧化碳(SCCO2)中固体的溶解度,用逆向人工神经网络(BPANN)优化模型对其进行了模拟。得到了恒温下282个训练数据点和71个预测数据点的相对误差(AARD)分别为8.04%和8.37%;变温下264个训练数据点和63个预测数据点的AARD分别为8.59%和10.01%,表明BPANN模型是一种固体在含提携剂SCCO2中溶解度的较好预测模型。

硫酸中阳极氧化制备Al_2O_3多孔模板的BPANN模拟

采用24组硫酸阳极氧化多孔膜的样本数据建立BP神经网络模型,得到了多孔膜孔有序度与硫酸阳极氧化参数之间的最优关系,经检验该模型的预测结果与实测结果相一致。表明BPANN是硫酸阳极氧化制备多孔膜孔有序度的较好的预测模型。

BP神经网络及其在阳极氧化铝多孔模板中的应用

BP人工神经网络(BPANN)是模拟人脑过程的人工智能技术,在很多领域都得到了有效的应用,在材料科学中,神经网络也得到了应用。为了对阳极氧化铝多孔模板孔排列的规整度进行科学的分析和预测,本文采用BP人工神经网络对阳极氧化工艺参数进行了分析研究和验证,结果表明,BPANN可用于模板孔排列规整度的预测,并且预测结果与实际有较好的一致性。

Application of the back-error propagation artificial neural network(BPANN) on genetic variants in the PPAR-γ and RXR-α gene and risk of metabolic syndrome in a Chinese Han population

This study was aimed to explore the associations between the combined effects of several polymorphisms in the PPAR-γ and RXR-α gene and environmental factors with the risk of metabolic syndrome by back-error propaga- tion artificial neural network （BPANN）. We established the model based on data gathered from metabolic syndrome patients （n = 1012） and normal controls （n = 1069） by BPANN. Mean impact value （MIV） for each input variable was calculated and the sequence of factors was sorted according to their absolute MIVs. Generalized multifactor dimensionality reduction （GMDR） confirmed a joint effect of PPAR-9＂ and RXR-a based on the results from BPANN. By BPANN analysis, the sequences according to the importance of metabolic syndrome risk fac- tors were in the order of body mass index （BMI）, serum adiponectin, rs4240711, gender, rs4842194, family history of type 2 diabetes, rs2920502, physical activity, alcohol drinking, rs3856806, family history of hypertension, rs1045570, rs6537944, age, rs17817276, family history of hyperlipidemia, smoking, rs1801282 and rs3132291. However, no polymorphism was statistically significant in multiple logistic regression analysis. After controlling for environmental factors, A1, A2, B1 and B2 （rs4240711, rs4842194, rs2920502 and rs3856806） models were the best models （cross-validation consistency 10/10, P = 0.0107） with the GMDR method. In conclusion, the interaction of the PPAR-γ and RXR-α gene could play a role in susceptibility to metabolic syndrome. A more realistic model is obtained by using BPANN to screen out determinants of diseases of multiple etiologies like metabolic syndrome.

数学模型在QbD理念实施中的应用及推广

数学模型的正确引入使质量源于设计(Qb D)理念更加形象化、具体化,使对产品或工艺的设计以数学模型为载体直接作用于产品质量或工艺指标。Qb D理念实施结果的好坏更多地依赖于其所应用模型的拟合效果,同时问题的复杂性与多样性对数学模型的适用范围提出了新的要求。本文综述了基于多项式模型的Qb D理念在制药领域的应用概况,并对反向传播人工神经网络(back propagation artificial neural network,BPANN)训练算法及支持向量回归(support vector regression,SVR)模型进行了推广,提出了将其用于Qb D理念的新思路,降低了数学模型给Qb D理念的应用带来的局限性。意在为后续研究者提供参考,通过对数学模型的合理运用,改善Qb D理念在制药领域应用的广度和深度。

Combining BPANN and wavelet analysis to simulate hydro-climatic processes a case study of the Kaidu River, North-west China

Using the hydrological and meteorological data in the Kaidu River Basin during 1957-2008, we simulated the hydro-climatic process by back-propagation artificial neural network （BPANN） based on wavelet analysis （WA）, and then compared the simulated results with those from a multiple linear regression （MLR）. The results show that the variation of runoff responded to regional climate change. The annual runoff （AR） was mainly affected by annual average temperature （AAT） and annual precipitation （AP）, which revealed different varia- tion patterns at five time scales. At the time scale of 32-years, AR presented a monotonically increasing trend with the similar trend of AAT and AP. But at the 2-year, 4- year, 8-year, and 16-year time-scale, AR presented non-linear variation with fluctuations of AAT and AP. Both MLR and BPANN successfully simulated the hydro- climatic process based on WA at each time scale, but the simulated effect from BPANN is better than that from MLR.