Marine vessel traffic system

Details Marine vessel traffic system Marine vessel traffic system

1995-09-21

2001-06-19

Sotomayor, John B. (Department: 2201)

Communications: directive radio wave systems and devices (e.g.,

Ship collision avoidance

C342S059000, 36

Reexamination Certificate

active

06249241

ABSTRACT:

The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without payment of any royalties thereon or therefor.
BACKGROUND OF THE INVENTION
1. Field of Invention
The invention relates to an improved radar harbor surveillance sensor, computer and display system to monitor marine harbor traffic and provide advisories to vessels in the areas selected by the system operators, and notify the operators of early warnings of unacceptable traffic conflicts in the confined waterways of the harbor. More particularly the invention relates to the collection of harbor traffic information from multiple remote sensor collection sites around the harbor and the integration, recording, merging and presentation of that remote site data onto a single operator display, selected from a plurality of operator displays. The invention provides a quick, accurate computer generated graphic display of the harbor traffic, possible surface and subsurface conflicts, and key vessel identification information.
2. Description of the Prior Art
A wide variety of sensor information, radio, radar, and camera, has been used in the past to monitor marine traffic from a shore based station and ensure safe passage and the orderly passage of vessels. The technology is based on the direct visual observation and radar sensing techniques and upon procedures developed for collision avoidance of mobile craft and vessels on the high seas. Typically, such harbor surveillance systems consist of one or more shore-based azimuth scanning radar systems, supported in the plural configuration by broadband data linking systems such as microwave relay links or co-axial cable wherever the radar data from a multiplicity of sensors is to be viewed at a single control or operational surveillance center.
The marine traffic pattern is viewed at one or more shore-based radar plan position indicators by operators whose function is to interpret the traffic situation and to generate alerts when unacceptable ship movements occur or more importantly are about to occur, and to communicate with and to receive communications from ships within their spheres of coverage, such communications being concerned with the identification of specific ships in relation to their present positions and future maneuver intentions. In the special conditions where ships lack and are unable to acquire information necessary to their safe navigation, the operators provide such information in a form intelligible to and convenient to the shipmaster or pilot on board the cooperating vessel. A specific function of the shore-based radar surveillance system is to provide information which is available to the shore station by virtue of the selected location of its radar sensors and which may not therefore be available by examination of similar radar equipment on a specifically located ship because of restricted radar coverage in land-locked constricted canals, rivers, or narrow estuaries.
Recent concern with the promotion of improved safety of marine operations for the purposes of environmental protection and preservation has also added encouragement to governmental agencies of the leading nations to promote legislation governing the establishment and efficient operation of maritime traffic surveillance systems. Initially, such systems will monitor traffic and issue advisory communications to voluntarily participating vessels. It can be expected that vessel participation will become mandatory.
Even though shore-based surveillance systems may possess advantages over shipborne equipment devoted to acquiring navigational and traffic information by reason of their carefully-planned deployment and of the deliberate sophistication of equipment matched to high orders of reliability and availability and supported by application of the accurate and rapid data processing capability of the digital computer, certain impediments occur. The individual vessel negotiating an area of difficulty in terms of navigation or traffic density may exercise some discretion in applying its available resources to address those problems of most immediate concern and consequence. In contrast, the shore-based surveillance system must perform its functions with respect to its total surveillance region. When traffic densities are high, the work load generated is known to reach overwhelming levels. The combination of all of the threats posed by encounters of all the traffic elements taken a pair at the time can reach high numerical values.
More recent shipboard collision threat assessment techniques use automatic target trackers to acquire radar target data and a digital computer to process the radar target data and to provide easily-assimilated presentations of collision threat information to the shipmaster. Efforts to exploit these techniques at the shore-based location have revealed severe limitations. In shipboard systems designed to cope with the pattern of encounters which occur in the open sea, it has been discovered that a more limited applicability results in situations where ships are forced to abandon their normal operating pattern, which is to proceed in general on steady courses with steady speed and to follow the sometimes torturous channels of an estuary or harbor.
In the latter situations, the likelihood of the ship continuing on at least a steady course is curtailed severely. Reliance upon the convention of prediction of future events based upon the extrapolation of the present positions, speeds, and courses of vessels becomes impossible. Instead, reliance is based on the convention that vessels will follow a predicted set of courses and speeds and normal radar displays are therefore used to monitor the situation to see that the ships do in fact follow the predicted courses. This allows prediction of the vessels future positions even in the usual situation in which a number of bends or changes in channel configuration intervene.
U.S. Pat. No. 3,971,018 issued to Isbister et al. discloses a marine traffic conflict assessment system that monitors harbor traffic with radar surveillance and permits rapid and accurate assessment of the degree of hazard or safety in the movement of the monitored vessels through the monitored harbor.
Other radar anti-collision systems for ships in ships in waters adjacent to land areas are focused on mounting the radar and display system on the vessel. U.S. Pat. No. 3,890,616 issued to Kojima et al., U.S. Pat. No. 4,706,090 issued to Hashiguchi et al., U.S. Pat. No. 4,081,802 issued to Elmore et al., and U.S. Pat. No. 4,339,751 issued to Pease.
SUMMARY OF THE INVENTION
The invention relates to an improved radar harbor urveillance sensor, computer and display system to monitor arine harbor traffic, provide advisories to vessels in areas elected by the system operators, and provide the operators of he system with an early warning of unacceptable traffic conflicts in the confined waterways of the harbor. Each marine Vessel Traffic System (VTS) consists of a number of remote sites providing radar, camera video, and audio communicated to a central Vessel Traffic Center (VTC). VTC data integration and display provides the ability to identify, monitor, and advice of potentially dangerous vessel traffic conditions and fuse multi-radars on a single display. Although the primary purpose of VTS is to insure safe passage of vessels throughout these waterways, the system also provides the ability to document incidents and traffic conditions.
It is an object of the present invention to monitor vessel traffic and provide advisories to vessels in transit or anchorage in key waterways. To accomplish this task, the VTS is capable of acquiring data from one to, in the initial fielded system, 18 (and scaleable beyond 18) remote sites in the form of radar track data, digitized radar image data, camera video, and audio. Data is processed and displayed in a form that provides for early recognition of potentially dangerous situations and communication of the impending condition to vessels of concern. This fe

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