base line lanewidth

简明释义

基线巷宽;

英英释义

例句

1.Adjustments were made to the base line lanewidth 基线车道宽度 after feedback from local traffic authorities.

在收到地方交通部门的反馈后，对base line lanewidth 基线车道宽度进行了调整。

2.The construction team decided to measure the road's width to ensure it meets the required base line lanewidth 基线车道宽度 for safety standards.

施工团队决定测量道路的宽度，以确保其符合安全标准所需的base line lanewidth 基线车道宽度。

3.The city council approved a new plan that included a wider base line lanewidth 基线车道宽度 for improved traffic flow.

市议会批准了一项新计划，其中包括更宽的base line lanewidth 基线车道宽度以改善交通流量。

4.During the inspection, it was found that the base line lanewidth 基线车道宽度 did not comply with federal regulations.

在检查过程中发现，base line lanewidth 基线车道宽度不符合联邦规定。

5.Before paving, the engineers marked the base line lanewidth 基线车道宽度 to guide the workers during the asphalt application.

在铺设之前，工程师标记了base line lanewidth 基线车道宽度以指导工人在沥青施工时的操作。

作文

In the realm of urban planning and infrastructure development, understanding the concept of road dimensions is crucial for ensuring safety and efficiency. One such important measurement is the base line lanewidth, which refers to the standard width of a lane on a roadway. This measurement is vital for various reasons, including traffic flow, vehicle safety, and pedestrian accessibility. The base line lanewidth can significantly influence the overall design of a road, affecting how many lanes can fit within a given space and how easily vehicles can maneuver. For instance, in densely populated urban areas, the base line lanewidth may be narrower to accommodate more lanes or additional features such as bike lanes and sidewalks. However, this could lead to challenges such as increased congestion and reduced safety for drivers and pedestrians alike. Conversely, in suburban or rural settings, wider lanes may be implemented to allow for higher speeds and larger vehicles, thus enhancing safety but potentially wasting valuable space that could be used for other purposes.Moreover, the base line lanewidth is not just a technical specification; it also reflects the priorities of a community. A city that prioritizes public transport might opt for a narrower base line lanewidth to allocate more space for bus lanes, while a community focused on accommodating personal vehicles might favor wider lanes. This decision-making process involves extensive planning and consideration of various factors, including projected traffic volumes, accident statistics, and community needs.Additionally, the base line lanewidth has implications for environmental sustainability. Wider lanes can encourage higher speeds, leading to increased fuel consumption and emissions. On the other hand, narrower lanes can promote a more pedestrian-friendly environment, encouraging walking and cycling, which are more sustainable modes of transportation. This aspect highlights the importance of integrating transportation planning with environmental considerations.Furthermore, the base line lanewidth is often subject to regulations and standards set by governmental bodies. These guidelines ensure that roads are designed to meet specific safety and operational criteria. For example, the American Association of State Highway and Transportation Officials (AASHTO) provides recommendations for lane widths based on road type and expected traffic conditions. Adhering to these standards helps maintain consistency across different regions and enhances overall safety for all road users.In conclusion, the base line lanewidth is a fundamental concept in road design that affects numerous aspects of transportation planning. Its implications extend beyond mere measurements; they encompass safety, traffic efficiency, community priorities, and environmental impacts. As cities continue to grow and evolve, understanding and optimizing the base line lanewidth will be essential for creating effective and sustainable transportation systems that cater to the needs of all users. By carefully considering this measurement, urban planners can contribute to safer, more efficient, and environmentally friendly roadways, ultimately improving the quality of life for residents.

在城市规划和基础设施开发领域，理解道路尺寸的概念对于确保安全和效率至关重要。其中一个重要的测量是基准车道宽度，它指的是道路上车道的标准宽度。这个测量对于交通流动、车辆安全和行人可达性等方面至关重要。基准车道宽度可以显著影响道路的整体设计，影响在给定空间内可以容纳多少车道以及车辆如何轻松机动。例如，在人口密集的城市地区，基准车道宽度可能更窄，以容纳更多车道或附加功能，如自行车道和人行道。然而，这可能会导致诸如拥堵增加和驾驶员与行人安全性降低等挑战。相反，在郊区或农村地区，可能会实施更宽的车道，以允许更高的速度和更大的车辆，从而增强安全性，但这可能浪费本可用于其他目的的宝贵空间。此外，基准车道宽度不仅仅是一个技术规格；它还反映了社区的优先事项。一个优先考虑公共交通的城市可能会选择较窄的基准车道宽度以分配更多空间给公交车道，而一个专注于容纳个人车辆的社区可能会更倾向于更宽的车道。这一决策过程涉及广泛的规划和对各种因素的考虑，包括预计的交通量、事故统计数据和社区需求。此外，基准车道宽度对环境可持续性也有影响。更宽的车道可能会鼓励更高的速度，从而导致燃料消耗和排放增加。另一方面，更窄的车道可以促进更适合行人的环境，鼓励步行和骑行，这些都是更可持续的交通方式。这一方面突显了将交通规划与环境考量相结合的重要性。此外，基准车道宽度通常受到政府机构设定的法规和标准的约束。这些指导方针确保道路设计符合特定的安全和操作标准。例如，美国州公路和交通官员协会（AASHTO）根据道路类型和预期交通条件提供车道宽度的建议。遵循这些标准有助于在不同地区保持一致性，并提高所有道路使用者的整体安全性。总之，基准车道宽度是道路设计中的一个基本概念，影响着交通规划的多个方面。它的影响超出了简单的测量；它涵盖了安全、交通效率、社区优先事项和环境影响。随着城市的不断发展和演变，理解和优化基准车道宽度将对创建有效和可持续的交通系统至关重要，这些系统能够满足所有用户的需求。通过仔细考虑这一测量，城市规划者可以为创造更安全、更高效和更环保的道路做出贡献，最终改善居民的生活质量。