velocity along route

简明释义

沿航线速度沿计划航线的航速

英英释义

例句

1.To optimize fuel consumption, we need to monitor the velocity along route during our journey.

为了优化燃油消耗，我们需要在旅途中监测沿路线的速度。

2.By analyzing the velocity along route, we can identify areas where traffic congestion occurs.

通过分析沿路线的速度，我们可以识别交通拥堵发生的区域。

3.The app displays the velocity along route so drivers can adjust their speed accordingly.

该应用程序显示沿路线的速度，以便司机可以相应地调整速度。

4.The GPS system calculates the velocity along route to provide accurate arrival times.

GPS系统计算沿路线的速度以提供准确的到达时间。

5.The delivery service uses velocity along route data to improve their logistics operations.

快递服务使用沿路线的速度数据来改善他们的物流运营。

作文

In the context of transportation and logistics, understanding the concept of velocity along route is crucial for optimizing travel times and improving efficiency. The term ‘velocity’ refers to the speed of an object in a specific direction, while ‘route’ denotes the path taken from one point to another. Therefore, velocity along route essentially measures how quickly a vehicle or object travels over a designated path. This measurement is not only important for determining arrival times but also plays a significant role in planning and resource allocation.For instance, consider a delivery truck that needs to transport goods from a warehouse to various destinations. If the company can accurately calculate the velocity along route, it can predict when the truck will reach each stop. This allows for better scheduling and customer communication, as clients can be informed about expected delivery times. Moreover, by analyzing the velocity along route, companies can identify potential bottlenecks or delays that may occur during transit.Another application of velocity along route is in the field of urban planning. City planners often need to assess traffic patterns and transportation efficiency. By examining the velocity along route for different types of vehicles, they can make informed decisions about where to build new roads, add traffic signals, or implement public transport systems. For example, if data shows that buses have a low velocity along route due to frequent stops and heavy traffic, planners might decide to create dedicated bus lanes to improve overall efficiency.Furthermore, advancements in technology have made it easier to track velocity along route in real time. GPS systems and mobile applications provide instant feedback on travel speeds, allowing drivers to adjust their routes dynamically. This capability not only enhances individual travel experiences but also contributes to broader traffic management strategies. By analyzing aggregated data on velocity along route, city officials can understand peak traffic hours and develop plans to alleviate congestion.In addition to practical applications, understanding velocity along route has implications for environmental sustainability. As society becomes increasingly aware of its carbon footprint, optimizing travel routes to improve velocity along route can lead to reduced fuel consumption and lower emissions. For instance, companies that utilize efficient routing algorithms can minimize the distance traveled and the time spent on the road, contributing to greener logistics practices.In conclusion, the concept of velocity along route is integral to various fields, including logistics, urban planning, and environmental sustainability. By accurately measuring and analyzing this velocity, organizations can enhance efficiency, improve customer satisfaction, and contribute to more sustainable practices. As technology continues to evolve, the ability to track and optimize velocity along route will likely become even more sophisticated, paving the way for smarter transportation systems in the future.

在运输和物流的背景下，理解“沿路线速度”这一概念对于优化旅行时间和提高效率至关重要。‘速度’一词指的是物体在特定方向上的速度，而‘路线’则表示从一个点到另一个点所采取的路径。因此，“沿路线速度”本质上衡量的是一个车辆或物体在指定路径上的行驶速度。这一测量不仅对确定到达时间重要，而且在规划和资源分配中也发挥着重要作用。例如，考虑一辆需要将货物从仓库运输到各个目的地的送货卡车。如果公司能够准确计算出“沿路线速度”，就可以预测卡车何时到达每个停靠点。这使得更好的调度和客户沟通成为可能，因为客户可以被告知预计的交货时间。此外，通过分析“沿路线速度”，公司可以识别在运输过程中可能发生的瓶颈或延误。“沿路线速度”的另一个应用是在城市规划领域。城市规划者通常需要评估交通模式和运输效率。通过检查不同类型车辆的“沿路线速度”，他们可以做出关于在哪里修建新道路、增加交通信号灯或实施公共交通系统的明智决策。例如，如果数据显示，公交车由于频繁停靠和交通拥堵而具有较低的“沿路线速度”，规划者可能会决定创建专用公交车道以提高整体效率。此外，技术的进步使得实时跟踪“沿路线速度”变得更加容易。GPS系统和移动应用程序提供了关于行驶速度的即时反馈，使司机能够动态调整他们的路线。这种能力不仅增强了个人旅行体验，还为更广泛的交通管理策略做出了贡献。通过分析“沿路线速度”的聚合数据，城市官员可以了解高峰交通时段并制定缓解拥堵的计划。除了实际应用之外，理解“沿路线速度”对环境可持续性也有影响。随着社会越来越意识到其碳足迹，优化旅行路线以提高“沿路线速度”可以导致减少燃料消耗和降低排放。例如，利用高效路线算法的公司可以最小化行驶距离和在路上花费的时间，从而有助于更绿色的物流实践。总之，“沿路线速度”的概念在物流、城市规划和环境可持续性等多个领域中都是不可或缺的。通过准确测量和分析这一速度，组织可以提高效率、改善客户满意度，并为更可持续的实践做出贡献。随着技术的不断发展，跟踪和优化“沿路线速度”的能力可能会变得更加复杂，为未来更智能的交通系统铺平道路。