piggy-back system

简明释义

集装箱背载装法

英英释义

A piggy-back system refers to a method or arrangement where one system or process is built on top of another, utilizing the existing infrastructure or resources to enhance functionality or efficiency.

piggy-back系统指的是一种方法或安排,其中一个系统或过程建立在另一个系统之上,利用现有的基础设施或资源来增强功能或效率。

例句

1.The new software uses a piggy-back system to enhance its performance by leveraging existing resources.

新软件使用piggy-back system来通过利用现有资源提高其性能。

2.Our network operates on a piggy-back system, allowing us to share bandwidth effectively.

我们的网络运行在piggy-back system上,允许我们有效地共享带宽。

3.Using a piggy-back system for data backup ensures that we do not waste storage space.

使用piggy-back system进行数据备份确保我们不会浪费存储空间。

4.The piggy-back system in our logistics allows smaller packages to be shipped alongside larger ones without extra cost.

我们物流中的piggy-back system允许较小的包裹与较大的包裹一起运输而不增加额外费用。

5.The piggy-back system allows new applications to utilize the infrastructure already in place.

piggy-back system允许新应用程序利用已建立的基础设施。

作文

In today's fast-paced world, technology has become an integral part of our daily lives. One of the most innovative concepts that has emerged in recent years is the piggy-back system. This term refers to a method where one system relies on another system for support or functionality. The piggy-back system is commonly used in various fields, including transportation, telecommunications, and computer networks. By understanding this concept, we can appreciate how interconnected our systems are and how they can enhance efficiency and effectiveness.For instance, in the realm of telecommunications, a piggy-back system can be seen when a new communication network uses the existing infrastructure of an older network. This allows the new network to operate without the need for extensive investment in new physical resources. Such a strategy not only saves costs but also accelerates the deployment of services to consumers. As a result, users can enjoy faster and more reliable connectivity, which is crucial in an era where communication is key.Similarly, in transportation, the piggy-back system is often utilized in freight logistics. Railroads frequently use this system to transport shipping containers. Trucks will deliver containers to a rail yard, where they are loaded onto trains for long-distance travel. Once the train reaches its destination, the containers are then transferred back to trucks for final delivery. This combined approach maximizes efficiency by leveraging the strengths of both trucking and rail transport, ultimately reducing costs and transit times.The concept of a piggy-back system extends beyond just physical systems; it can also apply to software development. In software engineering, developers often create applications that operate on top of existing platforms. For example, many mobile applications utilize the operating systems of smartphones to function effectively. By using the capabilities of established platforms, developers can focus on creating unique features and user experiences without needing to build everything from scratch.Moreover, the piggy-back system fosters collaboration between different entities. Companies can partner with each other, sharing resources and technologies to achieve common goals. This collaborative approach can lead to innovations that would not have been possible if each entity operated in isolation. It encourages a culture of sharing and mutual support, which is essential in today’s competitive market.However, while the piggy-back system offers numerous advantages, it is not without its challenges. Dependency on another system can create vulnerabilities. If the primary system experiences issues, the dependent system may also suffer. Therefore, it is crucial for organizations to assess the risks associated with such dependencies and develop contingency plans to mitigate potential disruptions.In conclusion, the piggy-back system is a powerful concept that illustrates the importance of interconnectivity in modern society. Whether in telecommunications, transportation, or software development, this system allows for greater efficiency and innovation. As we continue to advance technologically, understanding and utilizing the piggy-back system will be vital for future growth and success. Embracing this approach not only enhances operational capabilities but also promotes collaboration and resource optimization, ultimately benefiting consumers and businesses alike.

在当今快节奏的世界中,技术已成为我们日常生活中不可或缺的一部分。近年来出现的最具创新性的概念之一是piggy-back system。这个术语指的是一个系统依赖于另一个系统以获得支持或功能的方法。piggy-back system通常用于交通、通信和计算机网络等多个领域。通过理解这个概念,我们可以欣赏到我们的系统是如何相互联系的,以及它们如何增强效率和有效性。例如,在电信领域,piggy-back system可以看到一个新的通信网络使用旧网络的现有基础设施。这使得新网络能够在不需要大量投资新物理资源的情况下运行。这种策略不仅节省了成本,还加快了向消费者提供服务的速度。因此,用户可以享受更快和更可靠的连接,这在沟通至关重要的时代显得尤为重要。同样,在运输方面,piggy-back system通常在货运物流中使用。铁路公司经常利用这一系统来运输集装箱。卡车将集装箱送到铁路货场,在那里它们被装载到火车上进行长途运输。一旦火车到达目的地,集装箱就会被转移回卡车进行最后的交付。这种组合方法通过利用卡车运输和铁路运输的优势,最大限度地提高了效率,最终降低了成本和运输时间。piggy-back system的概念不仅限于物理系统;它也可以应用于软件开发。在软件工程中,开发人员经常创建在现有平台之上运行的应用程序。例如,许多移动应用程序利用智能手机的操作系统来有效运行。通过利用既有平台的能力,开发人员可以专注于创建独特的功能和用户体验,而无需从头开始构建一切。此外,piggy-back system促进了不同实体之间的合作。公司可以相互合作,共享资源和技术以实现共同目标。这种合作方法可以导致创新,如果每个实体孤立运作则无法实现。它鼓励一种共享和相互支持的文化,这在当今竞争激烈的市场中至关重要。然而,尽管piggy-back system带来了众多优势,但它并非没有挑战。对另一个系统的依赖可能会造成脆弱性。如果主系统出现问题,依赖的系统也可能受到影响。因此,组织必须评估与这种依赖相关的风险,并制定应急计划以减轻潜在的中断。总之,piggy-back system是一个强大的概念,说明了现代社会中互联互通的重要性。无论是在电信、运输还是软件开发中,这一系统都允许更高的效率和创新。随着技术的不断进步,理解和利用piggy-back system将对未来的增长和成功至关重要。拥抱这种方法不仅增强了运营能力,还促进了合作和资源优化,最终使消费者和企业受益。