水下船舶锚解系留式水下机器人样机研制

E. Joseph, Georgewill Oyengiye Moses
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引用次数: 3

摘要

提出了一种用于水下船舶锚固释放的系留式水下机器人。在海上油气环境中,曾发生过一系列系泊作业后船舶锚被卡住的报道,潜水员被派去释放这些锚,以便船舶运动。由于人类的限制,使用潜水员执行这项功能是非常危险的,据报道,一些潜水员因水下高压或被水下野生动物袭击而死亡。这给船东造成了非常严重的恐慌,因此,这项工作的目的是开发TUR,供船舶操作员而不是潜水员使用,以在不造成损失的情况下释放被卡住的锚。水下机器人系统包括三个基本部分,即安装在操作员笔记本电脑上的图形用户控制界面(GUCI),用于网络连接的WiFi LAN路由器,以及TUR系统硬件和软件。每一部分都是经过严格设计的。采用多种高级编程语言对GUCI进行设计,并对接口按钮、机器人控制器程序代码等进行编码。原型系统在哈科特港大学6米深的游泳池中进行了测试,以进行验证。该机器人在水下游泳和放锚方面表现优异。
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Prototype development of tethered underwater robot for underwater vessel anchor release
Tethered underwater robot (TUR) for underwater vessel anchor release is presented. In off-shore oil and gas enviromnment, there has been series of reported cases on stuck vessel anchors after mooring operations and divers are sent to release these anchors for the vessels to be in motion. The use of divers to perform such function is very risky because of human limitation and some divers have been reported dead on the process due to high pressure underwater or being attacked by underwater wide animals. This has caused very serious panic to the vessel owners and hence, this work is aimed to develop TUR that would be used by the vessel operators instead of divers to release the stuck anchor without loss. The underwater robot system comprises of three basic sections namely graphical user control interface (GUCI) that would be installed in the operator’s laptop, the WiFi LAN router for network connection, and TUR system hardware and software. Each of these sections was strictly designed. Various high-level programming languages were employed to design the GUCI and code the interface buttons, robot controller program codes etc. The implementation carried out and the prototype system tested in the University of Port Harcourt’s swimming pool of 6m depth for validation. The robot performed extremely good in swimming and release of constructed anchor underwater.
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