NETEM阅读部分的真实性分析

从真实性的角度出发,利用Bachman的任务特征框架分析了NETEM阅读理解部分对考生交际语言能力的测试.分析表明,NETEM在输入材料方面有较高的真实性,任务涉及的语言能力的真实性也有很大的提高.但从输入与回答之间的关系看,个别题目未能体现交际语言能力的特点,仍有待改进.     

受强弱关系理论启发的改进人工蜂群算法

针对原人工蜂群算法在寻优过程中存在收敛精度不高、容易陷入局部最优的问题,提出一种改进人工蜂群算法(SWT-ABC)。将社会学中强弱关系模型化并引入多子群矩阵式蜂群结构,定义了强关系个体从三个方向随机引导搜索,加快算法收敛速度和提高收敛精度;为增强算法跳出局部最优的能力,定义了弱关系个体交互以实现子群间信息交流来提升种群多样性;增加侦查蜂反向学习机制并确定合适的蜜源上限,能有效提升目标函数评价次数的利用效率。通过基准测试函数的数值实验并与12种改进算法进行对比,改进后的人工蜂群算法收敛精度更高、全局寻优能力更强,并且在高维优化问题求解中仍具备良好的收敛性能。     

基于图嵌入与拓扑结构信息的蛋白质复合物识别算法

蛋白质复合物是细胞结构和生化机制的研究基础,如何准确识别蛋白质复合物成为近年来的研究热点。针对传统算法根据结构信息对蛋白质复合物进行搜索存在敏感度和F-measure低的问题,以及现有监督学习算法根据人为构造特征进行蛋白质复合物识别存在特征构造不能较好地反映图的真实信息等不足,提出了graph2vec-SVM识别算法。将蛋白质复合物看作稠密子图并考虑子图模块度大小,利用graph2vec将图信息转换为向量,并进一步采用SVM分类器对蛋白质复合物进行识别,提高了蛋白质复合物识别的敏感度和F-measure。该算法分别与目前流行的4种非监督学习算法(ClusterOne、CMC、HC-PIN和COACH)和3种监督学习算法(SCI-BN、SCI-SVM和RM)进行比较,在精准度、敏感度和F-measure 3项指标上都显示出了良好的性能。     

基于情境学习的射孔仿真培训系统应用研究

由于传统的仿真培训中只能通过鼠标的点击与键盘进行交互,存在着现场感缺乏以及用户体验不足等缺点,针对油田射孔岗位仿真培训中的交互问题,提出了应用情境学习理论结合体感交互技术的仿真培训系统。通过将Unity与体感交互技术结合,学习者可以运用手势与姿势来实现与仿真培训系统的交互操作。结合应用这一技术可以使得学习者能够在更逼真的虚拟学习环境中尽情的体会和学习,满足学习者的体验和参与需求,可以有效促进学习者从具体的感知经验上升到抽象的知识概念,为教学培训的顺利开展创设有利的条件。     

双流网络信息交互机制下的微表情识别

针对深度学习的方法用于微表情识别时微表情识别的实验数据库非常稀缺,导致神经网络在学习的过程中知识获取有限而难以提高精度及泛化能力的问题,提出基于双流网络信息交互的微表情识别方法.通过改进的深度互学习策略引导图像序列不同模态之间的交互训练,提高网络的识别率.方法基于RGB图像序列建立主体网络,基于光流建立辅助网络;在训练阶段,通过设计互学习损失中的有监督学习损失和拟态损失,优化训练过程,使得每一种模态都能学习正确地预测训练样本的真实标识,同时能与其他模态的预测相匹配;在测试阶段,由于互学习机制增强了RGB分支的判别能力,因此可对光流分支进行剪裁,在保证精度的前提下提高识别速度.在CASME,CASMEⅡ和SMIC数据库上的实验结果表明,该方法有效地提高了识别精度,整体性能优于已有方法.     

The mass,fake news,and cognition security

The widespread fake news in social networks is posing threats to social stability, economic development, and political democracy, etc. Numerous studies have explored the effective detection approaches of online fake news, while few works study the intrinsic propagation and cognition mechanisms of fake news. Since the development of cognitive science paves a promising way for the prevention of fake news, we present a new research area called Cognition Security (CogSec), which studies the potential impacts of fake news on human cognition, ranging from misperception, untrusted knowledge acquisition, targeted opinion/attitude formation, to biased decision making, and investigates the effective ways for fake news debunking. CogSec is a multidisciplinary research field that leverages the knowledge from social science, psychology, cognition science, neuroscience, AI and computer science. We first propose related definitions to characterize CogSec and review the literature history. We further investigate the key research challenges and techniques of CogSec, including humancontent cognition mechanism, social influence and opinion diffusion, fake news detection, and malicious bot detection. Finally, we summarize the open issues and future research directions, such as the cognition mechanism of fake news, influence maximization of fact-checking information, early detection of fake news, fast refutation of fake news, and so on.     

Protein interaction networks: centrality,modularity, dynamics,and applications

In the post-genomic era, proteomics has achieved significant theoretical and practical advances with the development of high-throughput technologies. Especially the rapid accumulation of protein-protein interactions (PPIs) provides a foundation for constructing protein interaction networks (PINs), which can furnish a new perspective for understanding cellular organizations, processes, and functions at network level. In this paper, we present a comprehensive survey on three main characteristics of PINs: centrality, modularity, and dynamics. 1) Different centrality measures, which are used to calculate the importance of proteins, are summarized based on the structural characteristics of PINs or on the basis of its integrated biological information; 2) Different modularity definitions and various clustering algorithms for predicting protein complexes or identifying functional modules are introduced; 3) The dynamics of proteins, PPIs and sub-networks are discussed, respectively. Finally, the main applications of PINs in the complex diseases are reviewed, and the challenges and future research directions are also discussed.     

Self-excited vibration problems of maglev vehicle-bridge interaction system

The self-excited vibration problems of maglev vehicle-bridge interaction system were addressed, which greatly degrades the stability of the levitation control, decreases the ride comfort, and restricts the cost of the whole system. Firstly, the coupled model containing the quintessential parts was built, and the mechanism of self-excited vibration was explained in terms of energy transmission from levitation system to bridge. Then, the influences of the parameters of the widely used integral-type proportion and derivation（PD） controller and the delay of signals on the stability of the interaction system were analyzed. The result shows that the integral-type PD control is a nonoptimal approach to solve the self-excited vibration completely. Furthermore, the differential-type PD controller can guarantee the passivity of levitation system at full band. However, the differentiation of levitation gap should be filtered by a low-pass filter due to noise of gap differentiation. The analysis indicates that a well tuned low-pass filter can still keep the coupled system stable.     

基于流固耦合的闸板防喷器建模及有限元分析

为了更加准确地分析流体对闸板剪切力的影响规律,需要对闸板防喷器剪切钻杆进行流固耦合分析。以钻杆窜动和扭转2种动态工况为例,利用SolidWorks建立闸板防喷器三维模型,并对防喷器内部流体域进行有限元建模,输出到ANSYS Fluent进行有限元分析。结果表明:在闸板剪切钻杆过程中,流体达到稳态后,在钻杆窜动工况下,流体力随钻杆受载荷力增大而减小; 在钻杆扭转工况下,流体力随钻杆扭转角度而变化,在扭转90°时流体力最大。研究结果可为防喷器剪切闸板的剪切能力分析及结构设计提供参考。     

移动平台三维花卉植物触摸反馈可视化模拟

移动平台上高交互感的三维花卉植物可视化已成为植物研究、园艺设计等领域的重要需求,但现有植物运动形变方法还不能根据触摸力度对整株花卉植物或单一叶片的受力进行不同的形变过程模拟。为此,提出一种改进的三维花卉植物触摸反馈可视化模拟方法。根据植物整株交互需求或单一叶片受力情况,研究不同方式的触摸反馈模拟方法。在模拟触摸反馈时,整株受力应用动力学原理,抽象为杆件模型并计算形变结果。单一叶片受力时,根据触摸屏获取数据,并结合叶脉骨架旋转模型算法,模拟不同力度触摸造成的叶片形变,过程中无需手动输入参数。仿真结果表明,该方法应用于移动平台后,帧速率稳定,具有较高的真实感。