共查询到19条相似文献,搜索用时 375 毫秒
1.
从传感技术和数据传输技术等方面入手,根据海洋平台建造情况,设计用于进入施工区域人员的安全生产实时监控平台,实现对不同子监控系统的综合管理,实时采集各子系统的数据、运行状态和报警信息,并兼顾安全生产和安全保卫的功能。经现场测试,该监控平台稳定可靠,可对海洋平台生产进行有效监控,保障海洋平台安全生产的顺利进行。 相似文献
2.
随着海洋数据传输速率的提升,基于云服务平台的监控系统相对传统本地监控平台可扩展性及处理性能有很大提高,能够实现多层次的监控及实时数据分析需求,在海洋船舶监控领域得到广泛应用。Openstack是一种集成了并行数据传输及处理机制的云开放平台,本文在此基础上对云平台进行了二次开发,设计了基于远程云服务平台的船舶动态实时监控系统,最后进行仿真。 相似文献
3.
4.
本文的海上钻井平台智能化分布式管理信息系统(以下简称系统)是针对胜利石油管理局海洋钻井公司平台生产管理研究与开发的,开发模式为浏览器/服务器模式和客户端/服务器模式相结合,并应用了分布式数据复制,通过结构化生命周期法与快速原型法相结合的开发方法,在国内首次实现了海洋平台生产管理的网络化及海上钻井平台与陆地总部数据实时传输与共享.根据海上作业的具体环境和公司管理职能,该系统对平台的生产进行全方位管理与监控,并加强了陆地总部对海上平台的数据获取,数据加工,以及管理决策能力. 相似文献
5.
6.
7.
《舰船科学技术》2017,(22)
船舶实时监控系统可以对船舶航行路径、航行状态以及周围海洋信息的实时监测分析,提高船舶安全航行能力,为此提出嵌入式技术的船舶实时监控系统设计方法。首先构建船舶实时监控系统的总体结构模型,监控系统由信号采集模块、信号处理模块、核心控制模块和输出模块组成,然后采用低功耗的嵌入式用ARM Cortex-M0为处理内核,监控系统通过RS232进行Linux终端控制,实现船舶监控系统的自动增益控制和远程控制,各种控制信号由CPLD产生,在输出终端输出8路D/A转换信号,实现船舶实时监控信息输出,最后系统测试结果表明,该系统进可以实现舶实时监控,具有较好的信号采集和数据分析能力,监控系统输出稳定性较好,且能实现监控异常报警。 相似文献
8.
《船舶标准化工程师》2017,(3)
<正>近日,由七〇五所联合国家海洋局共同开发的国内首套海洋环境大数据系统——"西西海洋"海洋环境预报及仪器共享平台,在山东省青岛市黄岛区举行手机客户端登录上线仪式,正式上线运行,备受海洋科技企业关注。"西西海洋"大数据系统包括近岸海水环境预报系统和海洋环境测试仪器共享及技术服务平台两大部分。近岸海水环境预报系统可以对海洋近岸海水环境和海水污染进行实时监控预报,满足公众对海洋健康产业的 相似文献
9.
本文的海上钻井平台智能化管理信息系统(以下简称系统)是针对胜利石油管理局海洋钻井公司平台生产管理研究与开发的,开发模式为客户/服务器模式,开发方法为结构化生命周期法与快速原型法相结合.系统在国内首次实现了海洋平台生产管理的网络化及海上钻井平台与陆地总部数据实时传输与共享,可对平台的生产进行全方位管理与监控,并具有一定的决策支持功能.系统共分为系统维护、人员管理、设备管理、平台性能、材料管理、操船管理及成本管理七大模块,可对钻井平台日常工作的各种数据进行收集、整理、组织、存储、维护、查询及打印输出等操作. 相似文献
10.
11.
半潜式起重平台是海上导管架平台退役拆解的主要装备。本文以半潜式起重平台拆解作业安全为对象,研发了一种监测系统。针对其拆解作业过程中的各类风险,开展了监测系统设计需求分析并制定了整体方案;选择适用的传感器进行合理布置,实现了数据的采集与传输。研究了安全评估指标分级划分,建立了以三级报警机制为框架的安全评估体系;监测软件包括户权限管理、数据分析、数据查询、安全报警、监测日报等五大功能模块,实现了安全风险的实时监测和自动报警,可对半潜式起重平台拆解作业进行安全监测。 相似文献
12.
The aim of this research is to develop an algorithm and application that can perform real-time monitoring of the safety operation of offshore platforms and subsea gas pipelines as well as determine the need for ship inspection using data obtained from automatic identification system(AIS). The research also focuses on the integration of shipping database,AIS data, and others to develop a prototype for designing a real-time monitoring system of offshore platforms and pipelines. A simple concept is used in the development of this prototype, which is achieved by using an overlaying map that outlines the coordinates of the offshore platform and subsea gas pipeline with the ship's coordinates(longitude/latitude) as detected by AIS. Using such information, we can then build an early warning system(EWS) relayed through short message service(SMS), email, or other means when the ship enters the restricted and exclusion zone of platforms and pipelines. The ship inspection system is developed by combining several attributes. Then, decision analysis software is employed to prioritize the vessel's four attributes, including ship age, ship type, classification, and flag state.Results show that the EWS can increase the safety level of offshore platforms and pipelines, as well as the efficient use of patrol boats in monitoring the safety of the facilities. Meanwhile, ship inspection enables the port to prioritize the ship to be inspected in accordance with the priority ranking inspection score. 相似文献
13.
K. B. Artana T. Pitana D. P. Dinariyana M. Ariana D. Kristianto E. Pratiwi 《船舶与海洋工程学报》2018,17(1):101-111
The aim of this research is to develop an algorithm and application that can perform real-time monitoring of the safety operation of offshore platforms and subsea gas pipelines as well as determine the need for ship inspection using data obtained from automatic identification system (AIS). The research also focuses on the integration of shipping database, AIS data, and others to develop a prototype for designing a real-time monitoring system of offshore platforms and pipelines. A simple concept is used in the development of this prototype, which is achieved by using an overlaying map that outlines the coordinates of the offshore platform and subsea gas pipeline with the ship’s coordinates (longitude/latitude) as detected by AIS. Using such information, we can then build an early warning system (EWS) relayed through short message service (SMS), email, or other means when the ship enters the restricted and exclusion zone of platforms and pipelines. The ship inspection system is developed by combining several attributes. Then, decision analysis software is employed to prioritize the vessel’s four attributes, including ship age, ship type, classification, and flag state. Results show that the EWS can increase the safety level of offshore platforms and pipelines, as well as the efficient use of patrol boats in monitoring the safety of the facilities. Meanwhile, ship inspection enables the port to prioritize the ship to be inspected in accordance with the priority ranking inspection score. 相似文献
14.
15.
16.
17.
18.