centralised traffic control

简明释义

中心交通控制系统

英英释义

例句

1.The benefits of centralised traffic control include quicker response times to accidents.

集中交通控制的好处包括对事故的更快响应时间。

2.The new railway system implemented centralised traffic control to improve safety and efficiency.

新的铁路系统实施了集中交通控制以提高安全性和效率。

3.Our transportation department is transitioning to centralised traffic control for better coordination.

我们的交通部门正在过渡到集中交通控制以实现更好的协调。

4.With centralised traffic control, operators can monitor multiple intersections from a single location.

通过集中交通控制，操作员可以从一个位置监控多个交叉路口。

5.The city is investing in centralised traffic control to reduce congestion during peak hours.

该城市正在投资于集中交通控制以减少高峰时段的拥堵。

作文

In the modern world, transportation systems play a crucial role in the economy and daily life of individuals. One of the significant advancements in managing these transportation systems is the implementation of centralised traffic control. This system refers to the centralized management of traffic signals and flow, allowing for a more organized and efficient movement of vehicles and pedestrians. The primary goal of centralised traffic control is to reduce congestion, minimize travel time, and enhance road safety. The concept of centralised traffic control emerged as cities grew larger and traffic volumes increased. Traditional methods of traffic management relied heavily on manual control, which was often inefficient and prone to human error. With the advent of technology, cities began to adopt automated systems that could monitor traffic patterns in real-time. These systems utilize sensors and cameras to gather data on vehicle counts, speed, and flow rates, enabling traffic managers to make informed decisions. One of the key benefits of centralised traffic control is its ability to adapt to changing traffic conditions. For example, during peak hours, traffic signals can be adjusted to allow for longer green lights on busy roads, thereby reducing delays and preventing gridlock. Additionally, if an accident occurs, the system can quickly reroute traffic to alternative routes, minimizing the impact of the incident. This dynamic approach not only improves the efficiency of the transportation network but also enhances the overall experience for drivers and pedestrians alike. Moreover, centralised traffic control contributes significantly to environmental sustainability. By optimizing traffic flow and reducing idling times at intersections, emissions from vehicles can be substantially lowered. This is particularly important in urban areas where air quality is a growing concern. Cities that have implemented centralised traffic control systems often report a decrease in greenhouse gas emissions and an improvement in air quality, contributing to healthier living conditions for residents. However, the successful implementation of centralised traffic control requires substantial investment in infrastructure and technology. Cities must install the necessary hardware, such as cameras and sensors, as well as software systems that can analyze the collected data. Furthermore, ongoing maintenance and updates are essential to ensure the system functions optimally. Despite these challenges, the long-term benefits of centralised traffic control far outweigh the initial costs, making it a worthwhile investment for urban planners and policymakers. In conclusion, centralised traffic control represents a significant leap forward in the management of urban transportation systems. By utilizing technology to monitor and control traffic flow, cities can effectively reduce congestion, improve safety, and promote environmental sustainability. As urban areas continue to expand, the importance of efficient traffic management will only grow, making systems like centralised traffic control essential for the future of urban mobility. Embracing this innovative approach will help create smarter, more livable cities for generations to come.

在现代社会，交通系统在经济和个人日常生活中扮演着至关重要的角色。管理这些交通系统的重大进展之一就是实施集中交通控制。该系统是指对交通信号和流量的集中管理，从而允许车辆和行人更有序、高效地移动。集中交通控制的主要目标是减少拥堵、最小化旅行时间并提高道路安全性。随着城市的不断扩大和交通量的增加，集中交通控制的概念应运而生。传统的交通管理方法严重依赖人工控制，这通常效率低下且容易出错。随着技术的出现，城市开始采用自动化系统，这些系统能够实时监测交通模式。这些系统利用传感器和摄像头收集车辆数量、速度和流量的数据，使交通管理者能够做出明智的决策。集中交通控制的一个关键优势是其适应变化交通条件的能力。例如，在高峰时段，交通信号可以调整，以便在繁忙道路上提供更长的绿灯，从而减少延误并防止交通堵塞。此外，如果发生事故，系统可以迅速将交通重新导向替代路线，从而最小化事件的影响。这种动态方法不仅提高了交通网络的效率，还增强了司机和行人的整体体验。此外，集中交通控制对环境可持续性也有显著贡献。通过优化交通流量和减少交叉口的怠速时间，可以显著降低车辆的排放。这在空气质量日益受到关注的城市地区尤为重要。实施了集中交通控制系统的城市通常报告温室气体排放减少和空气质量改善，为居民创造了更健康的生活条件。然而，成功实施集中交通控制需要在基础设施和技术方面进行大量投资。城市必须安装必要的硬件，如摄像头和传感器，以及能够分析收集数据的软件系统。此外，持续的维护和更新对于确保系统的最佳运行至关重要。尽管面临这些挑战，但集中交通控制的长期利益远远超过初始成本，使其成为城市规划者和政策制定者值得投资的项目。总之，集中交通控制代表了城市交通系统管理的重大飞跃。通过利用技术监测和控制交通流量，城市可以有效减少拥堵、提高安全性并促进环境可持续性。随着城市区域的不断扩张，有效的交通管理的重要性只会增加，这使得像集中交通控制这样的系统对未来城市出行至关重要。接受这种创新的方法将有助于为未来几代人创造更智能、更宜居的城市。