computerised automated vessel

简明释义

计算机自动化船

英英释义

例句

1.The environmental impact of computerised automated vessels is being closely monitored by regulatory bodies.

监管机构正在密切监测计算机化自动化船只的环境影响。

2.The computerised automated vessel can navigate through busy ports without human intervention.

这艘计算机化自动化船只可以在繁忙的港口中无需人工干预地导航。

3.Our company has invested in a fleet of computerised automated vessels to streamline our logistics operations.

我们公司投资了一批计算机化自动化船只以简化我们的物流操作。

4.The shipping industry is increasingly using computerised automated vessels to reduce human error and improve efficiency.

航运业越来越多地使用计算机化自动化船只来减少人为错误并提高效率。

5.With the advent of computerised automated vessels, shipping routes are becoming more optimized.

随着计算机化自动化船只的出现，航运路线变得更加优化。

作文

In recent years, the shipping industry has witnessed a remarkable transformation due to advancements in technology. One of the most significant developments is the rise of the computerised automated vessel, which refers to ships that are equipped with sophisticated computer systems to manage navigation, operations, and safety protocols without the need for extensive human intervention. These vessels are designed to enhance efficiency, reduce human error, and improve overall safety at sea.The concept of a computerised automated vessel is rooted in the integration of various technologies, including artificial intelligence, machine learning, and advanced sensors. These technologies work together to allow the vessel to make real-time decisions based on environmental conditions, traffic, and operational requirements. For instance, the ship can automatically adjust its course to avoid obstacles or optimize fuel consumption by analyzing weather patterns and sea currents.One of the primary benefits of computerised automated vessels is their potential to significantly reduce operational costs. By minimizing the number of crew members required onboard, shipping companies can save on wages, training, and accommodation expenses. Additionally, automation can lead to more efficient routing and scheduling, further reducing fuel consumption and associated costs.Safety is another critical advantage of computerised automated vessels. Human error is a leading cause of maritime accidents, and by automating key functions, the likelihood of such errors can be greatly diminished. The advanced monitoring systems onboard these vessels can detect anomalies and potential hazards much faster than a human crew could, allowing for timely interventions.However, the transition to computerised automated vessels is not without its challenges. There are concerns regarding cybersecurity, as these vessels rely heavily on interconnected systems that could be vulnerable to hacking. Ensuring the security of navigation and operational systems is paramount to prevent malicious attacks that could endanger lives and cargo.Moreover, the shift towards automation raises questions about the future of employment within the maritime industry. While some jobs may be displaced by automation, new roles will likely emerge that focus on managing and maintaining these advanced systems. The industry must adapt to this change by providing training and education for the workforce to ensure they possess the necessary skills to operate alongside automated technologies.In conclusion, the advent of the computerised automated vessel represents a significant leap forward in maritime technology. With their ability to enhance efficiency, reduce costs, and improve safety, these vessels are poised to revolutionize the shipping industry. However, it is crucial to address the challenges that accompany this transformation, including cybersecurity risks and workforce implications. As we move forward, the integration of automation in shipping will require careful consideration to harness its full potential while ensuring the safety and security of maritime operations.

近年来，航运业由于技术的进步而经历了显著的转型。其中最重要的发展之一就是计算机化自动化船舶的兴起，它指的是配备有复杂计算机系统的船只，这些系统可以在不需要大量人力干预的情况下管理导航、操作和安全协议。这些船舶旨在提高效率、减少人为错误并改善整体海上安全。计算机化自动化船舶的概念源于各种技术的整合，包括人工智能、机器学习和先进传感器。这些技术协同工作，使船舶能够根据环境条件、交通和操作要求实时做出决策。例如，船舶可以自动调整航向以避开障碍物，或通过分析天气模式和海流来优化燃料消耗。计算机化自动化船舶的主要好处之一是其潜在的显著降低运营成本。通过减少船上所需的船员人数，航运公司可以节省工资、培训和住宿费用。此外，自动化可以导致更高效的航线和调度，从而进一步降低燃料消耗和相关成本。安全性是计算机化自动化船舶的另一个关键优势。人为错误是海事事故的主要原因，通过自动化关键功能，这类错误的可能性可以大大降低。船上先进的监测系统可以比人类船员更快地检测异常和潜在危险，从而允许及时干预。然而，过渡到计算机化自动化船舶并非没有挑战。人们对网络安全表示担忧，因为这些船舶严重依赖相互连接的系统，这些系统可能容易受到黑客攻击。确保导航和操作系统的安全至关重要，以防止可能危及生命和货物的恶意攻击。此外，向自动化转变引发了关于海事行业未来就业的疑问。虽然一些工作可能会被自动化取代，但可能会出现新的角色，专注于管理和维护这些先进系统。行业必须通过提供培训和教育来适应这一变化，以确保劳动力具备与自动化技术协同工作的必要技能。总之，计算机化自动化船舶的出现代表了海事技术的一次重大飞跃。凭借其提高效率、降低成本和改善安全性的能力，这些船舶有望彻底改变航运业。然而，解决伴随这一转型而来的挑战至关重要，包括网络安全风险和劳动力影响。随着我们向前推进，航运中的自动化整合将需要仔细考虑，以充分利用其潜力，同时确保海上操作的安全和保障。