train control

简明释义

列车控制

英英释义

例句

1.Effective train control 列车控制 can reduce delays significantly.

有效的列车控制可以显著减少延误。

2.Our team is working on enhancing train control 列车控制 mechanisms to improve safety.

我们的团队正在增强列车控制机制以提高安全性。

3.The system allows for better train control 列车控制 during peak hours.

该系统在高峰时段提供更好的列车控制。

4.During the simulation, the train control 列车控制 system was tested under various scenarios.

在模拟过程中，列车控制系统在各种场景下进行了测试。

5.The software update includes features for advanced train control 列车控制 systems.

软件更新包括高级列车控制系统的功能。

作文

Train control is a critical aspect of railway operations that ensures the safe and efficient movement of trains across the network. It involves various systems and protocols designed to monitor and manage train activities, ensuring that trains operate within their designated parameters. The concept of train control (列车控制) encompasses a range of technologies and methodologies, including signaling systems, train dispatching, and automated control systems. One of the primary functions of train control (列车控制) is to prevent collisions between trains. This is achieved through advanced signaling systems that communicate with train operators, providing them with real-time information about track conditions and the location of other trains. For instance, block signaling systems divide the railway into sections, or blocks, allowing only one train in each block at a time. This significantly reduces the risk of accidents and enhances overall safety. In addition to safety, train control (列车控制) plays a vital role in optimizing the efficiency of train operations. By utilizing sophisticated algorithms and data analytics, railway operators can manage train schedules more effectively. This includes adjusting train speeds, altering routes to avoid congestion, and ensuring timely arrivals and departures. Such measures not only improve the reliability of services but also enhance passenger satisfaction. Moreover, modern advancements in technology have revolutionized train control (列车控制). The implementation of automated control systems has transformed traditional practices, allowing for more precise monitoring and management of train movements. These systems utilize sensors and GPS technology to track trains' positions in real-time, enabling operators to respond quickly to any issues that may arise. For example, if a train experiences a mechanical failure, the train control (列车控制) system can automatically reroute other trains to prevent delays and maintain service continuity. Another significant aspect of train control (列车控制) is its integration with other transportation systems. As cities become more interconnected, the need for seamless transitions between different modes of transport becomes increasingly important. Effective train control (列车控制) systems facilitate this integration by coordinating schedules with buses, trams, and other forms of public transport, ensuring that passengers can make smooth connections without unnecessary waiting times. In conclusion, train control (列车控制) is an essential component of modern railway systems, encompassing a wide range of technologies and practices aimed at ensuring safety, efficiency, and reliability. As railways continue to evolve, the importance of effective train control (列车控制) will only grow, making it a focal point for future developments in transportation infrastructure. The ongoing advancements in technology promise to further enhance the capabilities of train control (列车控制), paving the way for a more integrated and efficient transportation network.

列车控制是铁路运营的一个关键方面，确保列车在网络中安全和高效地移动。它涉及各种系统和协议，旨在监控和管理列车活动，确保列车在指定参数内运行。train control（列车控制）的概念涵盖了一系列技术和方法，包括信号系统、列车调度和自动控制系统。train control（列车控制）的主要功能之一是防止列车之间的碰撞。这是通过先进的信号系统实现的，这些系统与列车操作员进行通信，为他们提供有关轨道状况和其他列车位置的实时信息。例如，区段信号系统将铁路划分为多个部分或区段，每次只允许一列火车进入一个区段。这大大降低了事故风险，提高了整体安全性。除了安全性，train control（列车控制）在优化列车运营效率方面也发挥着重要作用。通过利用复杂的算法和数据分析，铁路运营商可以更有效地管理列车时刻表。这包括调整列车速度、改变路线以避免拥堵，并确保准时到达和出发。这些措施不仅提高了服务的可靠性，还增强了乘客的满意度。此外，现代技术的进步彻底改变了train control（列车控制）。自动控制系统的实施改变了传统实践，使列车运动的监控和管理更加精准。这些系统利用传感器和GPS技术实时跟踪列车的位置，使运营商能够快速响应可能出现的任何问题。例如，如果一列火车发生机械故障，train control（列车控制）系统可以自动重新调度其他列车，以防止延误并保持服务的连续性。train control（列车控制）的另一个重要方面是其与其他交通系统的整合。随着城市变得更加互联，不同交通方式之间实现无缝衔接的需求变得越来越重要。有效的train control（列车控制）系统通过协调与公交车、有轨电车和其他公共交通形式的时刻表，确保乘客能够顺利换乘，而不必等待过长时间。总之，train control（列车控制）是现代铁路系统的重要组成部分，涵盖了一系列旨在确保安全、效率和可靠性的技术和实践。随着铁路的不断发展，有效的train control（列车控制）的重要性只会增加，使其成为未来交通基础设施发展的重点。技术的持续进步有望进一步增强train control（列车控制）的能力，为更集成和高效的交通网络铺平道路。