MODELLING OF VTS SUPERVISOR BY ALGORITHM BASED ON PETRI NET: CASE STUDY OF DOVER INCIDENT

IF 1.3 4区 工程技术 Q3 TRANSPORTATION SCIENCE & TECHNOLOGY
R. Bošnjak, D. Kezić, G. Belamarić, S. Krile
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引用次数: 0

Abstract

The paper deals with collision prevention problem in maritime transport in the area of the narrow canals with predefined routes. The Dover incident, which is analysed and described in the paper, has shown that the control of the passage of ships through the critical areas must be upgraded with an automatic supervising system, which warns the human operator of incorrect ship motion and help the operator to make the right and timely decision. The general idea is to improve the safety of navigation by introduction of automatic collision prevention based on automated supervisor helping to human operator in Vessel Traffic System (VTS) control centre. The VTS supervisor automatically monitors marine traffic by using data from Automatic Radar Plotting Aid (ARPA) radar and others sensors. Such supervisor detects real time and Course Over Ground (COG) of the vessel entering a particular sector, and then estimates the required time for vessel’s passage into another sector. VTS supervisor compares the real time and estimated time of passage of the specific ship through particular sector as a part of surveillance area. In addition, it compares and monitors the deviation of the course during transition of zones (sectors). If significant difference for both values are occurred VTS supervisor triggers a time alarm or a course alarm respectively. In the paper authors have modelled and simulated collision prevention with performed by the alarm actions of VTS supervisor improved with algorithm module based on hybrid Petri net formalism and Visual Object Net ++ tool.
基于petri网的VTS监控建模——以多佛事件为例
本文研究了具有预定航线的狭窄运河区域海上运输的防撞问题。本文通过对多佛事件的分析和描述,说明了船舶通过关键区域的控制必须升级为自动监控系统,该系统可以警告操作人员船舶的错误运动,并帮助操作人员做出正确及时的决策。其总体思路是在船舶交通系统(VTS)控制中心引入基于自动监督员辅助人工操作的自动防撞系统,以提高船舶的航行安全性。VTS监督员通过使用自动雷达绘图辅助(ARPA)雷达和其他传感器的数据自动监控海上交通。这种监控器可以实时检测船舶进入特定扇区的实时情况和地面航向(COG),然后估计船舶进入另一个扇区所需的时间。作为监视区域的一部分,VTS监督员对特定船舶通过特定扇区的实时时间和估计时间进行比较。此外,它还可以比较和监测区域(扇区)过渡过程中的航向偏差。如果两个值出现显著差异,VTS主管分别触发时间报警或航向报警。本文采用基于混合Petri网形式化和Visual objectnet ++工具的改进算法模块,对VTS监测器报警动作的碰撞预防进行了建模和仿真。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Transport
Transport Engineering-Mechanical Engineering
CiteScore
3.40
自引率
5.90%
发文量
19
审稿时长
4 months
期刊介绍: At present, transport is one of the key branches playing a crucial role in the development of economy. Reliable and properly organized transport services are required for a professional performance of industry, construction and agriculture. The public mood and efficiency of work also largely depend on the valuable functions of a carefully chosen transport system. A steady increase in transportation is accompanied by growing demands for a higher quality of transport services and optimum efficiency of transport performance. Currently, joint efforts taken by the transport experts and governing institutions of the country are required to develop and enhance the performance of the national transport system conducting theoretical and empirical research. TRANSPORT is an international peer-reviewed journal covering main aspects of transport and providing a source of information for the engineer and the applied scientist. The journal TRANSPORT publishes articles in the fields of: transport policy; fundamentals of the transport system; technology for carrying passengers and freight using road, railway, inland waterways, sea and air transport; technology for multimodal transportation and logistics; loading technology; roads, railways; airports, ports, transport terminals; traffic safety and environment protection; design, manufacture and exploitation of motor vehicles; pipeline transport; transport energetics; fuels, lubricants and maintenance materials; teamwork of customs and transport; transport information technologies; transport economics and management; transport standards; transport educology and history, etc.
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