integrated bridge system

简明释义

综合驾驶室系统综合驾驶台系统

英英释义

例句

1.The integrated bridge system allows for real-time data sharing between different departments on the vessel.

该综合桥梁系统允许船上不同部门之间实时共享数据。

2.With an integrated bridge system, the captain can monitor all vital systems from one central location.

使用综合桥梁系统，船长可以从一个中心位置监控所有重要系统。

3.During the training exercise, the crew learned how to operate the integrated bridge system efficiently under simulated conditions.

在训练演习中，船员们学习了如何在模拟条件下高效操作综合桥梁系统。

4.The ship's navigation was greatly improved by the use of an integrated bridge system, which combines various instruments for better control.

船只的导航因使用了综合桥梁系统而得到了极大改善，该系统将多种仪器结合在一起以实现更好的控制。

5.The installation of an integrated bridge system has made navigation safer and more intuitive for the crew.

安装综合桥梁系统使船员的导航变得更安全和更直观。

作文

The maritime industry has seen significant advancements in technology over the past few decades. One of the most notable innovations is the development of the integrated bridge system, which has revolutionized how ships are navigated and controlled. An integrated bridge system (IBS) combines various navigational and operational functions into a single cohesive interface, allowing for more efficient and safer vessel management. This system integrates radar, electronic chart display and information systems (ECDIS), automatic identification systems (AIS), and other critical navigation tools, all of which are essential for modern maritime operations.The primary purpose of an integrated bridge system is to enhance situational awareness for the crew. By consolidating multiple displays and controls into one centralized location, the IBS minimizes the time and effort required to gather information from different sources. This not only improves the speed of decision-making but also reduces the likelihood of human error, which can be catastrophic in maritime operations. For instance, when navigating through narrow channels or congested waters, having all necessary information readily available in one place allows the crew to react quickly to changing conditions.Moreover, an integrated bridge system supports the implementation of automated functions that can assist the crew in performing routine tasks. For example, autopilot systems can be integrated into the IBS, allowing the ship to maintain a steady course while the crew focuses on monitoring the environment and preparing for any potential hazards. This automation is particularly beneficial during long voyages, where fatigue can impair a crew member's ability to stay alert.Safety is another critical aspect of the integrated bridge system. With features such as collision avoidance systems and real-time weather updates, the IBS plays a vital role in preventing accidents at sea. The integration of these safety features ensures that the crew has access to the most current information, enabling them to make informed decisions that prioritize the safety of the vessel and its occupants.Training and familiarization with an integrated bridge system are essential for mariners. As technology evolves, so too must the skills of those operating these systems. Many maritime training institutions now include IBS simulations in their curricula, allowing future seafarers to gain hands-on experience with this advanced technology. This training not only prepares them for the complexities of modern navigation but also instills confidence in their ability to operate sophisticated equipment.In conclusion, the integrated bridge system represents a significant leap forward in maritime technology. By combining various navigational tools into a single system, it enhances situational awareness, improves safety, and allows for greater efficiency in vessel operations. As the maritime industry continues to evolve, the importance of training and adapting to these technological advancements cannot be overstated. The integrated bridge system is not just a tool; it is a crucial component in ensuring the safe and efficient operation of vessels in today's challenging maritime environment.

海事行业在过去几十年中经历了显著的技术进步。其中最显著的创新之一是开发了集成桥梁系统，它彻底改变了船舶的导航和控制方式。集成桥梁系统（IBS）将各种导航和操作功能整合到一个统一的界面中，从而允许更高效和更安全的船舶管理。该系统集成了雷达、电子海图显示和信息系统（ECDIS）、自动识别系统（AIS）以及其他对现代海事操作至关重要的导航工具。集成桥梁系统的主要目的是增强船员的情境意识。通过将多个显示器和控制设备集中到一个中心位置，IBS减少了从不同来源收集信息所需的时间和精力。这不仅提高了决策速度，还降低了人为错误的可能性，而人为错误在海事操作中可能是灾难性的。例如，在狭窄的航道或拥挤的水域导航时，能够在一个地方快速获取所有必要信息使船员能够迅速应对变化的情况。此外，集成桥梁系统支持自动化功能的实施，这可以帮助船员执行日常任务。例如，自动驾驶仪系统可以集成到IBS中，使船舶能够保持稳定的航向，同时船员专注于监测环境并为潜在危险做好准备。这种自动化在长途航行中特别有益，因为疲劳可能会影响船员保持警觉的能力。安全是集成桥梁系统的另一个关键方面。通过碰撞避免系统和实时天气更新等功能，IBS在防止海上事故中发挥了重要作用。这些安全功能的集成确保船员能够访问最新的信息，使他们能够做出优先考虑船舶及其乘员安全的明智决策。培训和熟悉集成桥梁系统对海员至关重要。随着技术的发展，操作这些系统的人也必须提升技能。许多海事培训机构现在在课程中包括IBS模拟，让未来的海员获得与这一先进技术的实际经验。这种培训不仅为他们应对现代导航的复杂性做好准备，还增强了他们操作复杂设备的信心。总之，集成桥梁系统代表了海事技术的重大进步。通过将各种导航工具整合到一个系统中，它增强了情境意识，提高了安全性，并允许船舶操作的更大效率。随着海事行业的不断发展，培训和适应这些技术进步的重要性不容忽视。集成桥梁系统不仅仅是一个工具；它是确保在当今充满挑战的海事环境中安全高效操作船舶的关键组成部分。