To optimize the self-organization network, self-adaptation, real-time monitoring, remote management capability, and equipment reuse level of the meteorological station supporting the portable groundwater circulation w...To optimize the self-organization network, self-adaptation, real-time monitoring, remote management capability, and equipment reuse level of the meteorological station supporting the portable groundwater circulation wells, and to provide real-time and effective technical services and environmental data support for groundwater remediation, a real-time monitoring system design of the meteorological station supporting the portable groundwater circulation wells based on the existing equipment is proposed. A variety of environmental element information is collected and transmitted to the embedded web server by the intelligent weather transmitter, and then processed by the algorithm and stored internally, displayed locally, and published on the web. The system monitoring algorithm and user interface are designed in the CNWSCADA development environment to realize real-time processing and analysis of environmental data and monitoring, control, management, and maintenance of the system status. The PLC-controlled photovoltaic power generating panels and lithium battery packs are in line with the concept of energy saving and emission reduction, and at the same time, as an emergency power supply to guarantee the safety of equipment and data when the utility power fails to meet the requirements. The experiment proves that the system has the characteristics of remote control, real-time interaction, simple station deployment, reliable operation, convenient maintenance, and green environment protection, which is conducive to improving the comprehensive utilization efficiency of various types of environmental information and providing reliable data support, theoretical basis and guidance suggestions for the research of groundwater remediation technology and its disciplines, and the research and development of the movable groundwater cycling well monitoring system.展开更多
Distributed Denial of Service (DDoS) attack is a major threat to the availability of Web service. The inherent presence of self-similarity in Web traffic motivates the applicability of time series analysis in the st...Distributed Denial of Service (DDoS) attack is a major threat to the availability of Web service. The inherent presence of self-similarity in Web traffic motivates the applicability of time series analysis in the study of the burst feature of DDoS attack. This paper presents a method of detecting DDoS attacks against Web server by analyzing the abrupt change of time series data obtained from Web traffic. Time series data are specified in reference sliding window and test sliding window, and the abrupt change is modeled using Auto-Regressive (AR) process. By comparing two adjacent nonoverlapping windows of the time series, the attack traffic could be detected at a time point. Combined with alarm correlation and location correlation, not only the presence of DDoS attack, but also its occurring time and location can be deter mined. The experimental results in a test environment are illustrated to justify our method.展开更多
由于油气勘探开发中井下高温高压和复杂压力系统导致钻井过程面临的风险日益增大,因此迫切需要一款集工况数据模拟计算与井下复杂监测控制相结合的软件系统,助力实现安全高效钻井。为此,运用先进的控压钻井技术,实时监测井底压力、钻井...由于油气勘探开发中井下高温高压和复杂压力系统导致钻井过程面临的风险日益增大,因此迫切需要一款集工况数据模拟计算与井下复杂监测控制相结合的软件系统,助力实现安全高效钻井。为此,运用先进的控压钻井技术,实时监测井底压力、钻井液循环出入口流量差和密度等关键参数的变化,分析井下工况的变化,实现在钻井过程中井筒压力的快速、准确控制,有效降低钻井过程的安全隐患,及早发现并快速控制井下复杂情况,为形成预测、预控和快速处置的井筒安全提供支持。设计的控压钻井计算模拟与控制软件旨在从录井、PWD(Pressure While Drilling)、MWD(Measure While Drilling)、控压等设备获取钻井相关信息,建立水力学模型计算井筒压力、流量等参数。通过采用客户端/服务端网络架构,实现了多个客户端同时连接一个服务端,达到客户端数据同步的效果,经现场验证既可满足单机使用,又可方便网络连接,实现后方集中分析处理与远程操控。结果表明,该软件能准确地模拟计算各种钻井参数,保证安全高效钻井。实现了控压钻井由现场工程师处理模式转变为后方基于数据平台的模式,奠定了1个平台对N个现场控压钻井装备之间的互联互通基础,有力推动了控压钻井的智能化发展。展开更多
针对传统瓦斯多级监管系统存在的不足,研究了基于ArcGIS Server Java ADF和JSF框架下的网络地理信息关键技术,构建了ArcGIS server API和Java ADF两种技术集成的开发方案,设计了基于元数据的属性数据分布式存储和空间数据集中部署的数...针对传统瓦斯多级监管系统存在的不足,研究了基于ArcGIS Server Java ADF和JSF框架下的网络地理信息关键技术,构建了ArcGIS server API和Java ADF两种技术集成的开发方案,设计了基于元数据的属性数据分布式存储和空间数据集中部署的数据库存储方案,实现了B/S结构中的浏览器端与服务器端的瓦斯多级监管系统。展开更多
文摘To optimize the self-organization network, self-adaptation, real-time monitoring, remote management capability, and equipment reuse level of the meteorological station supporting the portable groundwater circulation wells, and to provide real-time and effective technical services and environmental data support for groundwater remediation, a real-time monitoring system design of the meteorological station supporting the portable groundwater circulation wells based on the existing equipment is proposed. A variety of environmental element information is collected and transmitted to the embedded web server by the intelligent weather transmitter, and then processed by the algorithm and stored internally, displayed locally, and published on the web. The system monitoring algorithm and user interface are designed in the CNWSCADA development environment to realize real-time processing and analysis of environmental data and monitoring, control, management, and maintenance of the system status. The PLC-controlled photovoltaic power generating panels and lithium battery packs are in line with the concept of energy saving and emission reduction, and at the same time, as an emergency power supply to guarantee the safety of equipment and data when the utility power fails to meet the requirements. The experiment proves that the system has the characteristics of remote control, real-time interaction, simple station deployment, reliable operation, convenient maintenance, and green environment protection, which is conducive to improving the comprehensive utilization efficiency of various types of environmental information and providing reliable data support, theoretical basis and guidance suggestions for the research of groundwater remediation technology and its disciplines, and the research and development of the movable groundwater cycling well monitoring system.
基金Supported by the National Natural Science Funda-tion of China (60373075)
文摘Distributed Denial of Service (DDoS) attack is a major threat to the availability of Web service. The inherent presence of self-similarity in Web traffic motivates the applicability of time series analysis in the study of the burst feature of DDoS attack. This paper presents a method of detecting DDoS attacks against Web server by analyzing the abrupt change of time series data obtained from Web traffic. Time series data are specified in reference sliding window and test sliding window, and the abrupt change is modeled using Auto-Regressive (AR) process. By comparing two adjacent nonoverlapping windows of the time series, the attack traffic could be detected at a time point. Combined with alarm correlation and location correlation, not only the presence of DDoS attack, but also its occurring time and location can be deter mined. The experimental results in a test environment are illustrated to justify our method.
文摘由于油气勘探开发中井下高温高压和复杂压力系统导致钻井过程面临的风险日益增大,因此迫切需要一款集工况数据模拟计算与井下复杂监测控制相结合的软件系统,助力实现安全高效钻井。为此,运用先进的控压钻井技术,实时监测井底压力、钻井液循环出入口流量差和密度等关键参数的变化,分析井下工况的变化,实现在钻井过程中井筒压力的快速、准确控制,有效降低钻井过程的安全隐患,及早发现并快速控制井下复杂情况,为形成预测、预控和快速处置的井筒安全提供支持。设计的控压钻井计算模拟与控制软件旨在从录井、PWD(Pressure While Drilling)、MWD(Measure While Drilling)、控压等设备获取钻井相关信息,建立水力学模型计算井筒压力、流量等参数。通过采用客户端/服务端网络架构,实现了多个客户端同时连接一个服务端,达到客户端数据同步的效果,经现场验证既可满足单机使用,又可方便网络连接,实现后方集中分析处理与远程操控。结果表明,该软件能准确地模拟计算各种钻井参数,保证安全高效钻井。实现了控压钻井由现场工程师处理模式转变为后方基于数据平台的模式,奠定了1个平台对N个现场控压钻井装备之间的互联互通基础,有力推动了控压钻井的智能化发展。
文摘针对传统瓦斯多级监管系统存在的不足,研究了基于ArcGIS Server Java ADF和JSF框架下的网络地理信息关键技术,构建了ArcGIS server API和Java ADF两种技术集成的开发方案,设计了基于元数据的属性数据分布式存储和空间数据集中部署的数据库存储方案,实现了B/S结构中的浏览器端与服务器端的瓦斯多级监管系统。