一种基于特征值分解的数据挖掘隐私保护扰乱增强方法

针对数据扰乱技术中的特征值分解攻击方法,分析和评估了该攻击下数据扰乱模型的安全性,发现现有模型存在一定的脆弱性.设计了基于特征空间的扰乱强度量化方法,对隐私保护强度进行量化评估.在此基础上,通过阀值曲线的上限投影,提出了针对数据分离攻击的隐私保护的增强方法.结果表明,在盲数据源下,该增强方法对于抵抗特征值分解攻击具有有效性和鲁棒性.     

政经因素在制定海事安全技术标准中的作用(英文)

技术标准在维护海事安全中起着至关重要的作用.但在制定技术标准的过程中不应只考虑技术因素,还应充分考虑政治和经济因素对航运事业的影响.根据航运产业的特点,说明在制定海事技术标准的过程中需要考虑到哪些政治经济因素.     

具有滞环的非线性非自治电路唯一稳态

利用向量比较原理，得到确定具有滞环的非线性非自治电路的唯一稳态条件，结果表明，具有滞环的非线性非自治电路的唯一稳态，可以用一个常数矩阵的HURWITZ条件来决定，其结果扩展巳有的经典结果。     

磁性琼酯糖亲和吸附剂的合成与应用

采用反相悬浮包埋技术合成了粒径在43-295μm之间的磁性琼脂糖微球。磁性琼脂糖微球经环氧氯丙烷活化后，分别键合6-氨基已酸、氨基乙酸和乙二胺为间隔臂，用水溶性碳二亚胺为缩合剂，分别偶联对氨基苯甲脒、l-精氨酸甲酯和胍基已酸，制备了3种磁性亲和吸附剂，并用于尿激酶粗品的分离纯化。测定了活性回收率和比活提高倍数，并与以磁性葡聚糖为基质的磁性亲和吸附剂对尿激酶的纯化效果进行了对比。     

浅谈现代陶艺中的中国传统文化

中国陶艺起步较晚,20世纪90年代初才开始,但十几年的发展已同世界陶艺主流相结合.文章通过对现代陶艺的介绍,将之与传统陶艺相比较,深入分析现代陶艺与中国传统文化的融合,从而证实中国陶瓷文化艺术有着最纯真、最本体的表达方式和语言,中国现代陶艺的风貌既是崭新的,又是传统文化的延续,是科技和文化交融发展的结果.中国现代陶艺从感觉泥性,到超越泥性,到演绎泥性,逐渐走向成熟,而且中国文化有着强盛的生命力,百年来数代艺术家都曾面对的中西文化交流和碰撞问题,将在一种新的文化语境、新的历史高度上展开.     

绿色交通理念下的非机动化发展对策

随着我国机动化水平的不断提高,带来的是我国交通问题的日益突出,利用＂绿色交通理念＂,适时发展非机动化交通方式,对解决城市交通拥堵等交通问题有重要意义。     

谈工程投标策略

激烈的市场竞争使建筑工程业面临严峻挑战，市场规范化和法制化又为公平意识创造了条件，在这种背景下，分析投标策略，包括意义、基本类型及制定原则，从而为在竞争中抢占先机，并最终取胜提供思考。     

Rapid Prototyping and Manufacturing Technology: Principle,Representative Technics,Applications, and Development Trends

The rapid prototyping and manufacturing technology (RPM), is an integration of many different disciplines. It is based on an advanced dispersed-accumulated forming principle and originated from 1980s. It generates an entity by first forming a series of layers according to the dispersed section information of the digital model, and then piling the formed layers sequentially together. It is capable of forming parts with complicated structures and non-homogeneous materials. Traditional RPM techniques are mainly used as prototypes in product invention process, such as stereolithography, three-dimensional printing, laminated object manufacturing, and fused deposition modeling. Later, with the progress of material and enabling technology, many new RPM techniques emerged out and have been already applied in the fields such as rapid tooling/moulding, direct formed usable part, nano-/micro-RPM, and biomanufacturing. This high flexible digital manufacturing method has a likely ability to become an almighty forming technology.     

Rapid Manufacturing of Sand Molds by Direct Milling

Direct milling of sand molds is an important development in rapid manufacturing of sand molds. Direct milling is an effective method for manufacturing single or small batches of cast parts. This paper describes experimental investigations to find sand blocks with the appropriate strength, to describe wear patterns of different tools (high-speed steel (HSS), carbide, and polycrystalline diamond (PCD) tools), and to analyze sand mold cutting mechanisms. The results show that the PCD tool outperformes the other tools in terms of tool life. Average flank wear and micro-tipping are the dominant tool failure modes in the sand mold milling process. With a flank wear limit of 0.3 mm, the PCD tool works continuously for about 70 h under the experimental conditions. The experimental results show that the cutting mechanism for direct milling sand molds differs from metal cutting.