WDC-D地球化学数据分类与编码的初步研究

首先以地球化学实体为基本分类对象,运用线分类法进行数据分类.作者共把地球化学数据分为四个层次,从第一到第四层次的数据量分别为9、40、192和604.然后作者采用层次码编码方法对数据进行编码.码长共有9位,第1位用“J”表示地球化学数据分类在WDC-D中的顺序;第2位用“1~9”表示第一层次数据;第3、4位,第5、6位,第7、8位均用“00~99”分别表示第二、三、四层次数据,第9位用“1~3”表示数据的共享级别.     

基于OPC和P2B的数据自动采集传输系统

概述了OPC和P2B技术的内涵,介绍了CITECT作为OPC客户端的设置方法,结合太钢信息化项目中数据自动采集的情况,详细说明了OPC和P2B技术的应用。     

零售业销售数据关联规则挖掘算法关键思想研究

对零售业销售数据关联规则挖掘算法的关键思想进行了研究，给出了各种提高算法效率的方法以及对规则选择的方法。     

水下沉桩施工新技术

肇庆换流站供水工程之一的五尺峡取水泵站施工中，在受施工条件限制的情况下，采用将钢筋混凝土预制桩改为开口钢管桩，将双排桩改为单排桩，尝试搭设水上竹平台作沉桩施工平台等措施均取得成功，保证了质量、安全、进度，降低了施工成本．     

地震数传电缆检测仪的研制

分析了地震数传电缆的测试方法，探索了一种零点脉冲反射法．介绍了用该方法设计的地震数传电缆检测仪的组成和主要性能．该检测仪可测试地震数传电缆的六种主要参数，能较全面地评价电缆质量．整机由单片机控制，配有微型打印机和液晶显示器，操作简便；既可在室内工作，也可在野外条件下检测．     

最优化法在计算平台破损后浮态及初稳性中的应用

提出了一种用优化方法求解平台破损进水后浮态和初稳性的方法,并用所编制的计算机程序对平台破损后的浮态和初稳性进行了计算。文中给出了某一平台在下沉就位过程中的计算实例,计算结果表明:利用优化方法来求解平台破损进水后的浮态和初稳性是切实可行的.     

有序分组资料的线性趋势检验的确切概率计算

有序分组资料的线性趋势检验主要用于检验几个二项总体反应率的线性趋势；在医学与生物学中最典型的用途是研究剂量和反应的关系． 如果用Ｚ检验来代替通常在本检验中所用的卡方检验，就可容易地导出本检验的确切概率计算方法，和其他２×Ｃ有序列联表有着相同的形式．本文给出了该检验的确切概率计算方法．     

Synchronization Analysis of Coupled Noncoherent Oscillators

We present two different approaches to detect and quantify phase synchronization in the case of coupled non-phase coherent oscillators. The first one is based on the general idea of curvature of an arbitrary curve. The second one is based on recurrences of the trajectory in phase space. We illustrate both methods in the paradigmatic example of the R?ssler system in the funnel regime. We show that the second method is applicable even in the case of noisy data. Furthermore, we extend the second approach to the application of chains of coupled systems, which allows us to detect easily clusters of synchronized oscillators. In order to illustrate the applicability of this approach, we show the results of the algorithm applied to experimental data from a population of 64 electrochemical oscillators.     

A C + + computational environment for biomolecular sequence management

The wide production of biomolecular data of the last 30 years, mainly due to the rapid evolving of technologies as well as to the accomplishment of the Genome Projects, led to the necessity of appropriate computational approaches for data storage, manipulation and analyses, giving place to a fast evolving area of Biology: Computational Biology or Bioinformatics.We propose here a new method for the storage of the sequences and their analyses using the C + + programming language, checking the effectiveness of an object oriented approach for new models, suitable to manage data representation and analyses, to improve the efficiency of computational methodologies to solve problems of general interest in bioinformatics. We developed a framework with the aim to decrease the computational costs for the storage and some basic manipulations of nucleic acid sequences. The remarkable reduction of memory requirements with no loss of efficiency makes this approach a first well promising step in order to get a more efficient environment for the manipulation and the management of nucleic acid data sets, in a field of research with hard challenges for Computer and Life Sciences.Mathematics Subject Classification: 68U99G. Toraldo, via Universita’ 100, 80055 Portici, Napoli, Italy