bridge control

简明释义

舰桥控制

英英释义

Bridge control refers to the management and operation of a bridge, particularly in terms of regulating traffic flow and ensuring safety for vehicles and pedestrians.

桥梁控制是指对桥梁的管理和操作,特别是在调节交通流量和确保车辆及行人安全方面。

In a more technical context, bridge control can also refer to systems that automate the opening and closing of movable bridges to allow for the passage of boats or ships.

在更技术的背景下,桥梁控制还可以指自动化系统,用于控制可动桥的开启和关闭,以便船只通过。

例句

1.The city council allocated funds for advanced bridge control technologies.

市议会拨款用于先进的桥梁控制技术。

2.Regular maintenance is crucial for effective bridge control and safety.

定期维护对于有效的桥梁控制和安全至关重要。

3.The software used for bridge control helps monitor traffic patterns in real-time.

用于桥梁控制的软件帮助实时监控交通模式。

4.The engineers implemented a new system for bridge control to enhance the stability of the structure.

工程师们实施了一种新的桥梁控制系统,以增强结构的稳定性。

5.During the storm, the bridge control mechanisms were activated to prevent any damage.

在暴风雨期间,桥梁控制机制被激活以防止任何损坏。

作文

In today's interconnected world, the concept of infrastructure management has become increasingly important. One critical aspect of this management is the ability to ensure safety and efficiency in transportation systems, particularly when it comes to bridges. This is where the term bridge control (桥梁控制) comes into play. Bridge control refers to the methods and technologies used to monitor and manage the structural integrity and operational efficiency of bridges. It encompasses a range of activities, from real-time monitoring of bridge conditions to implementing maintenance strategies that prolong the lifespan of these vital structures.Bridges are crucial for facilitating movement and trade, serving as essential links in transportation networks. However, they are also subject to various stresses, including traffic loads, environmental conditions, and natural disasters. Therefore, effective bridge control (桥梁控制) is necessary to mitigate risks and ensure public safety. Engineers and city planners utilize advanced technologies such as sensors, drones, and data analytics to perform regular inspections and assessments of bridge conditions. These tools help identify potential issues before they escalate into serious problems, allowing for timely repairs and interventions.One of the key components of bridge control (桥梁控制) is the implementation of structural health monitoring systems. These systems continuously collect data on various parameters such as vibrations, displacements, and strain levels. By analyzing this data, engineers can gain insights into the bridge's performance and detect any anomalies that may indicate deterioration or failure. This proactive approach not only enhances safety but also helps optimize maintenance schedules and reduce costs associated with emergency repairs.Moreover, bridge control (桥梁控制) plays a significant role in disaster preparedness and response. In areas prone to earthquakes, floods, or other natural disasters, having a robust bridge control (桥梁控制) system is essential. During such events, real-time monitoring can provide critical information about the condition of bridges, enabling authorities to make informed decisions about road closures and detours. This capability can save lives and minimize economic losses by ensuring that transportation routes remain safe and operational.In addition to technological advancements, public awareness and education about bridge control (桥梁控制) are also vital. Communities should be informed about the importance of reporting any signs of bridge distress, such as cracks or unusual noises. Engaging the public in the maintenance process fosters a sense of responsibility and encourages individuals to contribute to the safety of their transportation networks.In conclusion, bridge control (桥梁控制) is an essential aspect of infrastructure management that ensures the safety and reliability of bridges. By leveraging technology, conducting regular inspections, and promoting public awareness, we can effectively manage our bridges and safeguard the communities that rely on them. As our transportation needs continue to grow, investing in bridge control (桥梁控制) will be crucial for maintaining the integrity of our infrastructure and supporting sustainable development.

在当今互联的世界中,基础设施管理的概念变得越来越重要。这个管理的一个关键方面是确保交通系统的安全和效率,特别是在桥梁方面。这就是短语bridge control(桥梁控制)的用武之地。bridge control指的是用于监测和管理桥梁结构完整性和运营效率的方法和技术。它包括一系列活动,从实时监测桥梁状况到实施延长这些重要结构使用寿命的维护策略。桥梁对于促进人员和货物的流动至关重要,作为交通网络中的重要连接。然而,它们也面临各种压力,包括交通负荷、环境条件和自然灾害。因此,有效的bridge control(桥梁控制)是必要的,以减轻风险并确保公众安全。工程师和城市规划者利用传感器、无人机和数据分析等先进技术,定期进行桥梁状况的检查和评估。这些工具有助于在问题升级为严重问题之前识别潜在问题,允许及时修复和干预。bridge control(桥梁控制)的一个关键组成部分是实施结构健康监测系统。这些系统持续收集关于振动、位移和应变水平等各种参数的数据。通过分析这些数据,工程师可以获得桥梁性能的洞察,并检测出任何可能表明恶化或故障的异常现象。这种主动的方法不仅增强了安全性,还有助于优化维护计划并降低与紧急修复相关的成本。此外,bridge control(桥梁控制)在灾难准备和响应中也发挥着重要作用。在易受地震、洪水或其他自然灾害影响的地区,拥有强大的bridge control(桥梁控制)系统至关重要。在此类事件中,实时监测可以提供关于桥梁状况的重要信息,使当局能够就道路封闭和绕行做出明智的决定。这种能力可以挽救生命,最小化经济损失,确保交通路线保持安全和可操作。除了技术进步之外,提高公众对bridge control(桥梁控制)的意识和教育也至关重要。社区应了解报告桥梁损伤迹象(如裂缝或异常噪音)的重要性。让公众参与维护过程培养了一种责任感,并鼓励个人为他们的交通网络的安全贡献力量。总之,bridge control(桥梁控制)是基础设施管理的一个重要方面,确保桥梁的安全和可靠性。通过利用技术、进行定期检查和促进公众意识,我们可以有效管理我们的桥梁并保护依赖它们的社区。随着我们的交通需求不断增长,投资于bridge control(桥梁控制)将对维护我们基础设施的完整性和支持可持续发展至关重要。