articulated pod

简明释义

有节荚

英英释义

例句

1.The futuristic design of the articulated pod allows it to navigate through tight spaces effortlessly.

这个可调节舱的未来设计使其能够轻松穿过狭窄空间。

2.The articulated pod is equipped with smart technology for real-time passenger information.

这个可调节舱配备了智能技术，可以提供实时乘客信息。

3.In the theme park, kids can enjoy a ride in the articulated pod that swings and rotates.

在主题公园，孩子们可以体验一个在摆动和旋转的可调节舱。

4.The new public transport system features an articulated pod that can accommodate more passengers during peak hours.

新的公共交通系统采用了一个可调节舱，在高峰时段可以容纳更多乘客。

5.During the demonstration, the articulated pod showcased its ability to connect with other pods.

在演示过程中，可调节舱展示了与其他舱体连接的能力。

作文

In recent years, the concept of transportation has evolved significantly, leading to the development of innovative designs and technologies aimed at improving efficiency and sustainability. One such innovation is the articulated pod, a term that refers to a modular transport unit that can be connected to others to form a larger system. This design not only enhances the capacity of public transportation but also allows for greater flexibility in urban planning and infrastructure development.The articulated pod system is particularly beneficial in densely populated areas where traditional buses and trains may struggle to accommodate the growing number of commuters. By utilizing smaller, modular units, cities can create a more dynamic and responsive transportation network. These pods can operate independently or be linked together to form longer trains, which can adjust their length based on demand. This adaptability helps reduce congestion and improves the overall efficiency of the transport system.Moreover, the environmental impact of transportation is a pressing concern in today's world. The articulated pod design can contribute to greener urban environments by promoting electric or hybrid propulsion systems. With the ability to run on renewable energy sources, these pods can significantly lower carbon emissions compared to conventional fuel-powered vehicles. Additionally, their smaller size means they require less energy to operate, making them a more sustainable choice for urban transit.Another advantage of the articulated pod is its potential for integration with smart city technologies. As cities continue to embrace digital innovations, the ability to monitor and manage transportation systems in real-time becomes increasingly important. Each pod can be equipped with sensors and GPS technology, allowing for efficient routing and scheduling. This not only improves the user experience by reducing wait times but also enables better traffic management across the city.Furthermore, the articulated pod can enhance accessibility for individuals with disabilities. By designing these pods with features such as low floors, ramps, and designated spaces for wheelchairs, cities can ensure that everyone has access to public transportation. This inclusivity is essential for creating equitable urban environments where all residents can participate in the community.However, the implementation of articulated pods is not without its challenges. Initial costs for developing the necessary infrastructure and technology can be significant. Cities must also consider public acceptance and the need for education regarding how to use these new systems effectively. Engaging with the community and demonstrating the benefits of this innovative transportation solution will be crucial for its success.In conclusion, the articulated pod represents a promising advancement in urban transportation. Its modular design, environmental benefits, integration with smart technologies, and potential for increased accessibility make it an attractive option for cities looking to improve their public transport systems. As urban populations continue to grow, embracing such innovations will be vital for creating sustainable, efficient, and inclusive cities for the future.

近年来，交通运输的概念发生了显著变化，导致开发出旨在提高效率和可持续性的创新设计和技术。其中一种创新是关节式舱体，这个术语指的是可以连接到其他舱体以形成更大系统的模块化运输单元。这种设计不仅增强了公共交通的容量，还允许在城市规划和基础设施发展中具有更大的灵活性。关节式舱体系统在拥挤的城市地区特别有益，因为传统的公交车和火车可能难以容纳不断增长的通勤者数量。通过利用较小的模块化单元，城市可以创建一个更具动态性和响应性的交通网络。这些舱体可以独立运行或连接在一起形成更长的列车，能够根据需求调整长度。这种适应性有助于减少拥堵，提高运输系统的整体效率。此外，交通运输对环境的影响是当今世界面临的紧迫问题。关节式舱体设计可以通过推广电动或混合动力推进系统来促进更绿色的城市环境。凭借使用可再生能源的能力，这些舱体可以显著降低与传统燃料动力车辆相比的碳排放。此外，它们的较小尺寸意味着它们所需的能量更少，使其成为城市交通的更可持续选择。关节式舱体的另一个优势是其与智慧城市技术整合的潜力。随着城市继续拥抱数字创新，实时监控和管理交通系统的能力变得越来越重要。每个舱体都可以配备传感器和GPS技术，从而实现高效的路线规划和调度。这不仅通过减少等待时间改善用户体验，还使得城市交通管理更为有效。此外，关节式舱体可以增强残疾人士的可达性。通过设计具有低地板、坡道和轮椅专用空间等功能的舱体，城市可以确保每个人都能使用公共交通。这种包容性对于创造公平的城市环境至关重要，使所有居民都能参与社区活动。然而，实施关节式舱体并非没有挑战。开发必要的基础设施和技术的初始成本可能相当高。城市还必须考虑公众接受度以及教育人们如何有效使用这些新系统的必要性。与社区互动，并展示这一创新交通解决方案的好处，对于其成功至关重要。总之，关节式舱体代表了城市交通的一项有前景的进展。其模块化设计、环境效益、与智能技术的整合以及提高可达性的潜力，使其成为希望改善公共交通系统的城市的一个有吸引力的选择。随着城市人口的不断增长，采纳这样的创新将对未来创造可持续、高效和包容的城市至关重要。