一种基于数据挖掘的GIS及在航海中的应用

根据聚类分析方法中密度凝聚的思想，提出一种新的复合聚类分析算法，进一步将这种算法用于地理信息系统的数据挖掘，并应用于船舶航线的自动设计。     

车站通过能力计算中的数据处理方法

采集完备而合理的原始数据是计算车站通过能力的基础。为解决客观环境及人为因素造成采集数据失真和影响可靠性的问题,一方面运用灰色系统理论中的弱化缓冲原理进行数据预处理,即从原始数据序列中提取出显著偏离序列的数据元素,采用二阶缓冲数据处理方法进行数据弱化,并将预处理后的数据对应替代原始数据序列中被提取的数据;另一方面,运用数理统计方法推导占用时间标准计算公式中的权重系数,以权重系数替代传统公式中的简单算术平均数。给出数据预处理方法和确定权重系数的具体步骤,并以重庆站成都方向至到发场第2股道的接车作业占用咽喉时间实际数据处理为例,验证了所给出方法可有效减轻随机扰动对原始数据采集的不利影响,使设备占用时间标准的确定更加合理。     

信息共享平台模型探讨

介绍采用多数据库和数据仓库技术实现信息共享的方法,并在此基础上提出了新型信息共享平台的模型。通过阐述建设信息共享模型的一般过程,说明了该模型的工作原理。模型建立在分布式数据库系统之上,通过全局管理的元数据,可以实现局部异构数据库的存取;通过元数据和元数据基本例程库,可以实现异构数据库间的复制。借助元数据的定义和扩充,该模型可以具有更大的灵活性和可扩展性,实现不同信息系统间的共享。     

公路交通量调查数据分析

根据盘锦地区历年路段交通量实地调查统计资料,对公路交通量增长趋势、混合交通量组成以及表示交通量变化规律的特征值做了分析,并阐明了交调资料对地方公路建设规划的作用.     

工艺资源数据库的管理及应用

工艺资源数据库的建立过程及要求,工艺资源数据库与各应用系统数据交互,工艺资源数据库应用,工艺资源数据在应用中作用。     

水火弯板数据库系统设计

本文简述水火弯板变形原理，以及船板局部变形和整体变形的测试方法。在分析实船板的水火成形数据库系统数据结构基础上，给出了系统模块的设计功能和系统运行环境。     

神经网络在多目标分布式融合中的应用研究

提出了适合分布式多传感器多目标(MSMT)数据融合估计算法，对这种推广的分层融合估计算法进行了数学推导和描述，研究了利用神经网络进行MSMT跟踪融合的网络结构和算法，进行了计算机模拟仿真。仿真结果表明神经网络融合估计可提高跟踪精度，并且这种融合方法是有效的。     

基于二进制可辨矩阵知识约简方法的完备有效性

对于海量数据的铁路各种信息管理系统,利用基于二进制可辨矩阵的知识约简方法简化数据和从大量的冗余数据中挖掘出有价值的信息,是一种很有前途的方法。但实例证明该方法中的一些规则在有些情况下还不是完备有效的。因此,以从铁道部某管理信息系统的数据中抽取并建立的决策表为例进行检算和分析,提出基于二进制可辨矩阵知识约简方法的有效性及完备性的形式化定义,即:若给定二进制矩阵其列向量逻辑和为全“1”,则其正域相等,称其为有效;反之也成立,则称其为完备。从理论上给出严格的证明,首先求出有效和完备的二进制矩阵,然后求出最简的二进制矩阵,所得结果就是最简约简。     

1/32° real-time global ocean prediction and value-added over 1/16° resolution

A 1/32° global ocean nowcast/forecast system has been developed by the Naval Research Laboratory at the Stennis Space Center. It started running at the Naval Oceanographic Office in near real-time on 1 Nov. 2003 and has been running daily in real-time since 1 Mar. 2005. It became an operational system on 6 March 2006, replacing the existing 1/16° system which ceased operation on 12 March 2006. Both systems use the NRL Layered Ocean Model (NLOM) with assimilation of sea surface height from satellite altimeters and sea surface temperature from multi-channel satellite infrared radiometers. Real-time and archived results are available online at http://www.ocean.nrlssc.navy.mil/global_nlom. The 1/32° system has improvements over the earlier system that can be grouped into two categories: (1) better resolution and representation of dynamical processes and (2) design modifications. The design modifications are the result of accrued knowledge since the development of the earlier 1/16° system. The improved horizontal resolution of the 1/32° system has significant dynamical benefits which increase the ability of the model to accurately nowcast and skillfully forecast. At the finer resolution, current pathways and their transports become more accurate, the sea surface height (SSH) variability increases and becomes more realistic and even the global ocean circulation experiences some changes (including inter-basin exchange). These improvements make the 1/32° system a better dynamical interpolator of assimilated satellite altimeter track data, using a one-day model forecast as the first guess. The result is quantitatively more accurate nowcasts, as is illustrated by several model-data comparisons. Based on comparisons with ocean color imagery in the northwestern Arabian Sea and the Gulf of Oman, the 1/32° system has even demonstrated the ability to map small eddies, 25–75 km in diameter, with 70% reliability and a median eddy center location error of 22.5 km, a surprising and unanticipated result from assimilation of altimeter track data. For all of the eddies (50% small eddies), the reliability was 80% and the median eddy center location error was 29 km. The 1/32° system also exhibits improved forecast skill in relation to the 1/16° system. This is due to (a) a more accurate initial condition for the forecast and (b) better resolution and representation of critical dynamical processes (such as upper ocean – topographic coupling via mesoscale flow instabilities) which allow the model to more accurately evolve these features in time while running in forecast mode (forecast atmospheric forcing for the first 5 days, then gradually reverting toward climatology for the remainder of the 30-day forecast period). At 1/32° resolution, forecast SSH generally compares better with unassimilated observations and the anomaly correlation of the forecast SSH exceeds that from persistence by a larger amount than found in the 1/16° system.     

GCU-100轨道衡的可靠性设计

轨道衡的可靠性设计是轨道衡设计中的重要组成部分。文章从轨道衡可靠性预测、轨道衡电器部分设计、轨道衡衡体设计和轨道衡衡体拉杆分析几个方面论述了GCU-100轨道衡的可靠性设计。