An efficient physics-guided Bayesian framework for predicting ground settlement profile during excavations in clay

Recently,the application of Bayesian updating to predict excavation-induced deformation has proven successful and improved prediction accuracy significantly.However,updating the ground settlement profile,which is crucial for determining potential damage to nearby infrastructures,has received limited attention.To address this,this paper proposes a physics-guided simplified model combined with a Bayesian updating framework to accurately predict the ground settlement profile.The advantage of this model is that it eliminates the need for complex finite element modeling and makes the updating framework user-friendly.Furthermore,the model is physically interpretable,which can provide valuable references for construction adjustments.The effectiveness of the proposed method is demonstrated through two field case studies,showing that it can yield satisfactory predictions for the settlement profile.

Determination of the Pile Drivability Using Random Forest Optimized by Particle Swarm Optimization and Bayesian Optimizer

Driven piles are used in many geological environments as a practical and convenient structural component.Hence,the determination of the drivability of piles is actually of great importance in complex geotechnical applications.Conventional methods of predicting pile drivability often rely on simplified physicalmodels or empirical formulas,whichmay lack accuracy or applicability in complex geological conditions.Therefore,this study presents a practical machine learning approach,namely a Random Forest(RF)optimized by Bayesian Optimization(BO)and Particle Swarm Optimization(PSO),which not only enhances prediction accuracy but also better adapts to varying geological environments to predict the drivability parameters of piles(i.e.,maximumcompressive stress,maximum tensile stress,and blow per foot).In addition,support vector regression,extreme gradient boosting,k nearest neighbor,and decision tree are also used and applied for comparison purposes.In order to train and test these models,among the 4072 datasets collected with 17model inputs,3258 datasets were randomly selected for training,and the remaining 814 datasets were used for model testing.Lastly,the results of these models were compared and evaluated using two performance indices,i.e.,the root mean square error(RMSE)and the coefficient of determination(R2).The results indicate that the optimized RF model achieved lower RMSE than other prediction models in predicting the three parameters,specifically 0.044,0.438,and 0.146;and higher R2 values than other implemented techniques,specifically 0.966,0.884,and 0.977.In addition,the sensitivity and uncertainty of the optimized RF model were analyzed using Sobol sensitivity analysis and Monte Carlo(MC)simulation.It can be concluded that the optimized RF model could be used to predict the performance of the pile,and it may provide a useful reference for solving some problems under similar engineering conditions.

Evaluating the Efficacy of Latent Variables in Mitigating Data Poisoning Attacks in the Context of Bayesian Networks:An Empirical Study

Bayesian networks are a powerful class of graphical decision models used to represent causal relationships among variables.However,the reliability and integrity of learned Bayesian network models are highly dependent on the quality of incoming data streams.One of the primary challenges with Bayesian networks is their vulnerability to adversarial data poisoning attacks,wherein malicious data is injected into the training dataset to negatively influence the Bayesian network models and impair their performance.In this research paper,we propose an efficient framework for detecting data poisoning attacks against Bayesian network structure learning algorithms.Our framework utilizes latent variables to quantify the amount of belief between every two nodes in each causal model over time.We use our innovative methodology to tackle an important issue with data poisoning assaults in the context of Bayesian networks.With regard to four different forms of data poisoning attacks,we specifically aim to strengthen the security and dependability of Bayesian network structure learning techniques,such as the PC algorithm.By doing this,we explore the complexity of this area and offer workablemethods for identifying and reducing these sneaky dangers.Additionally,our research investigates one particular use case,the“Visit to Asia Network.”The practical consequences of using uncertainty as a way to spot cases of data poisoning are explored in this inquiry,which is of utmost relevance.Our results demonstrate the promising efficacy of latent variables in detecting and mitigating the threat of data poisoning attacks.Additionally,our proposed latent-based framework proves to be sensitive in detecting malicious data poisoning attacks in the context of stream data.

Rock mass quality prediction on tunnel faces with incomplete multi-source dataset via tree-augmented naive Bayesian network

Rock mass quality serves as a vital index for predicting the stability and safety status of rock tunnel faces.In tunneling practice,the rock mass quality is often assessed via a combination of qualitative and quantitative parameters.However,due to the harsh on-site construction conditions,it is rather difficult to obtain some of the evaluation parameters which are essential for the rock mass quality prediction.In this study,a novel improved Swin Transformer is proposed to detect,segment,and quantify rock mass characteristic parameters such as water leakage,fractures,weak interlayers.The site experiment results demonstrate that the improved Swin Transformer achieves optimal segmentation results and achieving accuracies of 92%,81%,and 86%for water leakage,fractures,and weak interlayers,respectively.A multisource rock tunnel face characteristic(RTFC)dataset includes 11 parameters for predicting rock mass quality is established.Considering the limitations in predictive performance of incomplete evaluation parameters exist in this dataset,a novel tree-augmented naive Bayesian network(BN)is proposed to address the challenge of the incomplete dataset and achieved a prediction accuracy of 88%.In comparison with other commonly used Machine Learning models the proposed BN-based approach proved an improved performance on predicting the rock mass quality with the incomplete dataset.By utilizing the established BN,a further sensitivity analysis is conducted to quantitatively evaluate the importance of the various parameters,results indicate that the rock strength and fractures parameter exert the most significant influence on rock mass quality.

A new method for evaluating the firing precision of multiple launch rocket system based on Bayesian theory

How to effectively evaluate the firing precision of weapon equipment at low cost is one of the core contents of improving the test level of weapon system.A new method to evaluate the firing precision of the MLRS considering the credibility of simulation system based on Bayesian theory is proposed in this paper.First of all,a comprehensive index system for the credibility of the simulation system of the firing precision of the MLRS is constructed combined with the group analytic hierarchy process.A modified method for determining the comprehensive weight of the index is established to improve the rationality of the index weight coefficients.The Bayesian posterior estimation formula of firing precision considering prior information is derived in the form of mixed prior distribution,and the rationality of prior information used in estimation model is discussed quantitatively.With the simulation tests,the different evaluation methods are compared to validate the effectiveness of the proposed method.Finally,the experimental results show that the effectiveness of estimation method for firing precision is improved by more than 25%.

Bayesian network-based survival prediction model for patients having undergone post-transjugular intrahepatic portosystemic shunt for portal hypertension

BACKGROUND Portal hypertension(PHT),primarily induced by cirrhosis,manifests severe symptoms impacting patient survival.Although transjugular intrahepatic portosystemic shunt(TIPS)is a critical intervention for managing PHT,it carries risks like hepatic encephalopathy,thus affecting patient survival prognosis.To our knowledge,existing prognostic models for post-TIPS survival in patients with PHT fail to account for the interplay among and collective impact of various prognostic factors on outcomes.Consequently,the development of an innovative modeling approach is essential to address this limitation.AIM To develop and validate a Bayesian network(BN)-based survival prediction model for patients with cirrhosis-induced PHT having undergone TIPS.METHODS The clinical data of 393 patients with cirrhosis-induced PHT who underwent TIPS surgery at the Second Affiliated Hospital of Chongqing Medical University between January 2015 and May 2022 were retrospectively analyzed.Variables were selected using Cox and least absolute shrinkage and selection operator regression methods,and a BN-based model was established and evaluated to predict survival in patients having undergone TIPS surgery for PHT.RESULTS Variable selection revealed the following as key factors impacting survival:age,ascites,hypertension,indications for TIPS,postoperative portal vein pressure(post-PVP),aspartate aminotransferase,alkaline phosphatase,total bilirubin,prealbumin,the Child-Pugh grade,and the model for end-stage liver disease(MELD)score.Based on the above-mentioned variables,a BN-based 2-year survival prognostic prediction model was constructed,which identified the following factors to be directly linked to the survival time:age,ascites,indications for TIPS,concurrent hypertension,post-PVP,the Child-Pugh grade,and the MELD score.The Bayesian information criterion was 3589.04,and 10-fold cross-validation indicated an average log-likelihood loss of 5.55 with a standard deviation of 0.16.The model’s accuracy,precision,recall,and F1 score were 0.90,0.92,0.97,and 0.95 respectively,with the area under the receiver operating characteristic curve being 0.72.CONCLUSION This study successfully developed a BN-based survival prediction model with good predictive capabilities.It offers valuable insights for treatment strategies and prognostic evaluations in patients having undergone TIPS surgery for PHT.

Comparison of two statistical methods for handling missing values of quantitative data in Bayesian N-of-1 trials: a simulation study

Background:Missing data are frequently occurred in clinical studies.Due to the development of precision medicine,there is an increased interest in N-of-1 trial.Bayesian models are one of main statistical methods for analyzing the data of N-of-1 trials.This simulation study aimed to compare two statistical methods for handling missing values of quantitative data in Bayesian N-of-1 trials.Methods:The simulated data of N-of-1 trials with different coefficients of autocorrelation,effect sizes and missing ratios are obtained by SAS 9.1 system.The missing values are filled with mean filling and regression filling respectively in the condition of different coefficients of autocorrelation,effect sizes and missing ratios by SPSS 25.0 software.Bayesian models are built to estimate the posterior means by Winbugs 14 software.Results:When the missing ratio is relatively small,e.g.5%,missing values have relatively little effect on the results.Therapeutic effects may be underestimated when the coefficient of autocorrelation increases and no filling is used.However,it may be overestimated when mean or regression filling is used,and the results after mean filling are closer to the actual effect than regression filling.In the case of moderate missing ratio,the estimated effect after mean filling is closer to the actual effect compared to regression filling.When a large missing ratio(20%)occurs,data missing can lead to significantly underestimate the effect.In this case,the estimated effect after regression filling is closer to the actual effect compared to mean filling.Conclusion:Data missing can affect the estimated therapeutic effects using Bayesian models in N-of-1 trials.The present study suggests that mean filling can be used under situation of missing ratio≤10%.Otherwise,regression filling may be preferable.

Application of Bayesian Analysis Based on Neural Network and Deep Learning in Data Visualization

This study aims to explore the application of Bayesian analysis based on neural networks and deep learning in data visualization.The research background is that with the increasing amount and complexity of data,traditional data analysis methods have been unable to meet the needs.Research methods include building neural networks and deep learning models,optimizing and improving them through Bayesian analysis,and applying them to the visualization of large-scale data sets.The results show that the neural network combined with Bayesian analysis and deep learning method can effectively improve the accuracy and efficiency of data visualization,and enhance the intuitiveness and depth of data interpretation.The significance of the research is that it provides a new solution for data visualization in the big data environment and helps to further promote the development and application of data science.

2024年1月1日能登半岛M_(W)7.5地震作为一个可能的“龙王”事件

本文试图探讨,从“龙王”理论的角度看,2024年1月1日日本能登半岛M_(W)7.5地震是否可被视为一次“龙王”事件.本文分析了日本气象厅(JMA)2004年以来的地震矩张量解目录,针对样本数不够多的情况,用“级序分析”方法确定这一M_(W)7.5事件是否显著偏离Gutenberg-Richter幂律.结果表明在2006至2024年期间,M_(W)7.5地震还不能被视为显著的“龙王”事件;但在2021至2024年期间,该地震作为一次“龙王”事件特点十分明显,这一结果似乎与2020年底以来出现了复杂的前兆行为的报道吻合,标志着“龙王”事件的某种可预报性.本文建议,根据以往的研究结果,对这次地震的震源过程和余震序列进行详细刻画,附之以对地震前兆的回溯性研究,或可有助于“地震龙王”理论本身的发展和地震预测研究的进步.本文还讨论了“黑天鹅”事件、“龙王”事件及“灰犀牛”事件的相互关系,这几个概念是近年来减灾领域讨论较多的概念.

W火焰锅炉SCR脱硝超低排放技术及应用

截至2021年底,全国已有超过95%的燃煤火电机组实现了氮氧化物超低排放,剩余均为燃用无烟煤的W火焰锅炉,其产生的氮氧化物质量浓度高达750~1200 mg/m^(3),实现超低排放难度大,是我国实现超低排放政策的“最后一公里”。目前,选择性催化还原(SCR)脱硝流场技术主要有“SCR分区混合动态调平技术”“全烟道断面混合流场技术”“常规精准喷氨技术”等。以某设计脱硝效率需高达95%的W火焰锅炉为例,通过计算流体力学(CFD)模拟的方式对比3种技术的性能指标,“SCR分区混合动态调平技术”的各项指标明显优于其他技术。工程改造后,在脱硝系统入口氮氧化物质量浓度为1000 mg/m^(3),出口低于50 mg/m^(3)时,可实时保持氨逃逸量小于3μL/L,远超常规SCR脱硝系统最高设计效率(93%),为W火焰锅炉氮氧化物超低排放提供了新的技术路线。

德国高校对不同阶段教授激励策略的价值导向探究——基于德国W体系薪酬分配制度的分析

德国高校教授W体系薪酬分配制度成功实现从“注重人人有份”到“保障和激励兼顾”的转变。现已形成以“基本工资为主,多元附加浮动工资补充”的稳定结构,基本实现了“有侧重地激励不同专业发展阶段教授”的改革目标。基本工资坚持“依据资质,保障公平”、浮动工资坚持“优绩优酬,强化激励”的价值导向。具体而言,初级教授(W1阶段)面临适应和生存需求,侧重职位胜任力的提升;终身教授(W2、W3阶段),其中:普通教授(W2阶段)面临向上晋升需求,侧重教学和科研并重发展;专家教授(W3阶段)面临承担高级职位使命,侧重行政管理和对外合作等贡献。我国正处于高等学校薪酬制度的改革期,德国W体系薪酬分配制度二十余年的实践经验颇具借鉴意义。

2020年西藏定日M_(W)5.6地震震源参数估计和应力触发研究

2020年3月20日青藏高原西南缘定日县发生M_(W)5.6地震,距2015年尼泊尔M_(W)7.9地震~250 km.尼泊尔地震,尤其是震后余滑是否触发了此次定日地震还有待研究.本文联合合成孔径雷达和区域地震波资料研究定日地震的破裂特征.首先利用近场形变和宽频带地震波资料,通过贝叶斯自举优化算法揭示定日地震的均匀滑动模型;然后在此基础上构建断层几何模型并反演震源滑动分布.研究发现定日地震的发震断层走向~334°,倾角~51°.破裂主要集中在约2.0~5.5 km深度范围内.破裂范围~5.6 km×4.4 km,释放总的地震矩~3.33×10^(17)N·m.最大滑动量~1.27 m,发生在3.786 km深度.破裂以正断滑动为主兼少许右旋走滑分量,同区域历史地震表现出相似的破裂机制,表明印度板块向北东方向挤压欧亚板块,在藏南地区产生了近东西向的张应力.库仑应力变化研究表明,尼泊尔M_(W)7.9地震主余震和定日地区四次历史地震共同触发了2020年定日M_(W)5.6地震,其中尼泊尔地震震后2年的余滑引起的库仑应力变化占库仑应力增加总量的~40%,震后余滑在未来地震危险性评估中发挥的作用不容忽视.

冷轧和再结晶退火对Ta-2.5W合金组织和力学性能的影响

采用电子束熔炼法制备了Ta-2.5W合金,研究了18.8%、48.5%和75.8%不同冷轧变形量对Ta-2.5W合金显微组织和力学性能的影响,并研究了退火对冷轧Ta-2.5W合金显微组织、性能及织构的影响。结果表明:随着变形量的增加,合金的晶粒不断压扁拉长,变形量75.8%时已经形成明显的纤维组织,合金的硬度和强度随着变形量的增加不断提高,原因是加工硬化。开始变形时合金组织中形成{111}<110>、{111}<121>织构,随着变形量增加,开始出现{100}<110>织构,{111}<121>织构逐渐消失,当变形量达75.8%时主要为{100}<110>织构,只剩下较少的{111}<110>织构;随着退火温度的升高,合金的纤维状组织开始逐渐消失,出现大量的等轴晶粒,发生了再结晶,晶粒尺寸、分布更为均匀,织构强度逐渐降低;1450℃退火保温1 h后,合金再结晶比例达到95.7%,已基本完成再结晶,此时合金中的织构强度大幅降低,约为冷轧态时的50%;退火后合金的强度降低,但塑性显著增加,有利于其后续变形加工。

一种O/W型聚氨酯水性外脱模剂的制备及性能研究

传统油基脱模剂含有可能对环境产生污染的有机溶剂,随着全球环保意识的增强,更为绿色环保无毒的水性脱模剂逐渐成为研究热点.为了开发汽车内饰使用的新型脱模剂,以二甲基硅油、含氢硅油等为主要原料,制备出一种O/W型聚氨酯水性外脱模剂.通过测定脱模剂样品性能,探讨了主脱模剂种类及配比、乳化体系复配比例对脱模剂性能的影响.采用能谱仪(EDS)对脱模后的聚氨酯泡沫表面进行元素分析.结果表明:二甲基硅油和含氢硅油按照1∶1配比作为基础聚合物,固含量19.41%,采用非离子表面活性剂SP⁃80、TW⁃80复合乳化体系制备的O/W型聚氨酯水性外脱模剂稳定性最好,脱模后的聚氨酯泡沫表面没有Si元素残留,具有最佳脱模效果.

硅含量对9Cr-1.5W钢在550℃下蠕变性能的影响

在550℃下对硅质量分数分别为0.34%,0.60%,0.90%的9Cr-1.5W钢进行拉伸试验以及不同应力下的蠕变试验,研究了硅含量对试验钢高温拉伸性能和蠕变性能的影响。结果表明:随着硅含量的增加,试验钢在550℃下的屈服强度和抗拉强度均降低,但断后伸长率增大,应变硬化指数先升后降,含质量分数0.60%硅的试验钢具有最大的应变硬化指数;含质量分数0.60%硅的试验钢在不同应力下均具有较长的蠕变时间,表现出最佳的高温蠕变性能,应力指数最小,最小蠕变速率对外加应力敏感性最低;试验钢的蠕变行为均受位错攀移控制。

论公立医院机关党建“3W”原则

全面深入贯彻落实新时代公立医院党建工作,全面推行机关党建与医疗服务的深度融合,经由高质量党建推进公立医院高质量发展,是公立医院机关党建工作必须探究的课题。公立医院机关党建有其特殊的职能定位,面对新时代党建工作的要求和公立医院高质量发展的需求,公立医院机关党建需要从思想层面、顶层设计和实践层面分别解决机关党建“做什么”(WHAT)、“如何做”(HOW)和“如何做好”(WELL)的问题,称之为“3W”原则。

贝叶斯优化TQWT参数在轴承故障诊断中的应用

针对可调品质因子小波变换(Tunable Q-factor wavelet trans-form,TQWT)采用网格搜索和优化算法调参存在评估计算代价高的问题,提出基于贝叶斯优化TQWT参数的故障诊断算法。通过贝叶斯优化算法在TQWT参数空间内求取熵-峭综合目标函数最优解,据此设置TQWT参数分解轴承故障信号,选择熵-峭指标最小值对应子带信号,经TQWT逆变换后进行包络解调分析,最终由重构信号包络谱判别轴承故障类型。仿真实验和实测轴承信号分析表明,该算法可以准确提取轴承故障特征频率信息,实现早期故障诊断。

W2H2结合改良PBL教学法在《推拿治疗学》教学中的价值

目的分析在《推拿治疗学》课程教学中选择W2H2思维教学模式结合改良以问题为基础的教学法(problembased learning,PBL)的具体应用价值。方法选取2022年12月至2023年10月黑龙江中医药大学2020级针灸推拿学专业本科学生227名作为研究对象,其中一班116名学生接受常规教学(对照组),二班111名学生接受W2H2思维教学模式结合改良PBL教学法(观察组),对比2组考核成绩优良率、学习能力、评教情况、教学能力。结果观察组考核成绩优良率(94.59%)高于对照组(82.76%),差异有统计学意义(P<0.05);观察组学习能力高于对照组,差异有统计学意义(P<0.001);观察组评教情况高于对照组,差异有统计学意义(P<0.001);观察组教学能力评分高于对照组,差异有统计学意义(P<0.001)。结论在《推拿治疗学》课程教学中选择W2H2思维教学模式结合改良PBL教学法能够提升学生学习能力及考核成绩,改善学生评教情况,教学应用效果良好。

5W模式视角下的安徽省非物质文化遗产传播研究——基于抖音短视频的分析

技术的迭代推动非遗传播方式的变革,大众借助新媒体参与非遗的传播成为当代实践非遗保护与传承的重要载体。非遗短视频的创作与传播对于非遗文化展演和记忆具有重要的意义。文章基于抖音短视频平台选取关于安徽省非遗内容的短视频样本,用飞瓜数据对发布内容、呈现方式进行分析,运用5W传播理论从传播主体、传播内容、传播渠道、传播对象、传播效果五个方面分析安徽省非遗抖音短视频传播现状特征。针对其在抖音平台传播过程中存在传播主体水平参差、传播渠道用户拓展不足、受众群体狭窄、传播内容形式单一、传播效果不明显的问题提出优化建议,以期让抖音短视频平台真正成为非遗文化传播的有效领域。

基于5W模式的高校图书馆数字素养培育路径

文章基于对我国高校图书馆数字素养培育工作现状与问题的分析,运用5W模式分析法提出高校图书馆数字素养培育路径,即整合校内外主体的数字素养培育优势资源,设计兼具层次性与功能性的数字素养培育内容,创建线上线下一体化的数字素养培育方法,设计可触达用户需求的数字素养培育方案,建立数字素养培育效果评价闭环管理体系。