preselector mechanism

简明释义

预定位控制机构

英英释义

例句

1.The preselector mechanism in this transmission system enhances performance by reducing shift times.

该传动系统中的预选择机制通过减少换挡时间来提高性能。

2.The new car model features an advanced preselector mechanism that allows drivers to choose gears more smoothly.

这款新车型号配备了先进的预选择机制，使驾驶员能够更顺畅地选择档位。

3.The preselector mechanism ensures that the most efficient option is selected during processing.

该预选择机制确保在处理过程中选择最有效的选项。

4.In automated systems, a preselector mechanism can optimize the selection process before execution.

在自动化系统中，预选择机制可以在执行之前优化选择过程。

5.We implemented a preselector mechanism in our software to streamline user input.

我们在软件中实施了预选择机制以简化用户输入。

作文

In the modern world, technology plays a crucial role in shaping our daily lives. One fascinating aspect of technology is the concept of a preselector mechanism, which has found applications in various fields, including engineering, telecommunications, and even artificial intelligence. Understanding this mechanism can provide insights into how systems make decisions and optimize their performance.A preselector mechanism can be defined as a system or process that allows for the selection of certain inputs or options before they are processed further. This is particularly useful in complex systems where multiple variables need to be considered, and it helps streamline operations by filtering out unnecessary data or choices.For instance, consider a telecommunications network. In such a network, a preselector mechanism might be employed to prioritize certain types of data traffic over others. This ensures that critical communications, such as emergency calls, are given precedence, thereby enhancing the overall efficiency of the network. By implementing a preselector mechanism, network operators can manage bandwidth more effectively and reduce latency for important transmissions.Similarly, in the field of engineering, a preselector mechanism can be used in systems that require precise control over multiple parameters. For example, in an automated manufacturing process, a preselector mechanism could determine which machines should operate based on real-time data regarding production needs and available resources. This not only improves productivity but also minimizes waste by ensuring that only the necessary machines are active at any given time.Furthermore, in artificial intelligence, a preselector mechanism can be employed to enhance decision-making processes. Machine learning algorithms often analyze vast amounts of data to make predictions or classifications. A preselector mechanism can help narrow down the dataset by selecting the most relevant features or examples, which can lead to faster processing times and more accurate results. By focusing on the most pertinent information, AI systems can operate more efficiently and effectively.The implementation of a preselector mechanism is not without its challenges. One must carefully design the criteria for selection to ensure that important data is not overlooked. If the preselector mechanism is too restrictive, it may filter out valuable information that could lead to better decision-making. Therefore, it is essential to strike a balance between efficiency and comprehensiveness when developing these systems.In conclusion, the preselector mechanism is a vital component in many technological applications, allowing systems to make informed decisions by filtering inputs effectively. Whether in telecommunications, engineering, or artificial intelligence, understanding and implementing a preselector mechanism can significantly enhance operational efficiency and decision-making capabilities. As technology continues to evolve, the importance of such mechanisms will undoubtedly grow, paving the way for more intelligent and responsive systems that can adapt to the complexities of the modern world.

在现代社会，技术在塑造我们的日常生活中发挥着至关重要的作用。一个引人入胜的技术方面是预选择机制的概念，它在工程、通讯甚至人工智能等多个领域找到了应用。理解这一机制可以提供对系统如何做出决策和优化其性能的深入了解。预选择机制可以定义为一种系统或过程，允许在进一步处理之前选择某些输入或选项。这在需要考虑多个变量的复杂系统中尤为有用，它通过过滤掉不必要的数据或选择来简化操作。例如，考虑一个电信网络。在这样的网络中，可能会使用预选择机制来优先处理某些类型的数据流量。这确保了关键通信（如紧急电话）被优先处理，从而提高了网络的整体效率。通过实施预选择机制，网络运营商可以更有效地管理带宽，并减少重要传输的延迟。同样，在工程领域，预选择机制可以用于需要精确控制多个参数的系统。例如，在自动化制造过程中，预选择机制可以根据生产需求和可用资源的实时数据确定哪些机器应该运行。这不仅提高了生产率，还通过确保在任何给定时间仅激活必要的机器来最小化浪费。此外，在人工智能中，可以利用预选择机制来增强决策过程。机器学习算法通常分析大量数据以进行预测或分类。预选择机制可以通过选择最相关的特征或示例来帮助缩小数据集，这可以导致更快的处理时间和更准确的结果。通过专注于最相关的信息，AI系统可以更加高效和有效地运行。实施预选择机制并非没有挑战。必须仔细设计选择标准，以确保重要数据不会被忽视。如果预选择机制过于严格，可能会过滤掉有价值的信息，从而导致更好的决策。因此，在开发这些系统时，务必在效率和全面性之间取得平衡。总之，预选择机制是许多技术应用中的重要组成部分，通过有效过滤输入使系统能够做出明智的决策。无论是在电信、工程还是人工智能领域，理解和实施预选择机制都可以显著提高操作效率和决策能力。随着技术的不断发展，这种机制的重要性无疑会增长，为能够适应现代世界复杂性的更智能和响应迅速的系统铺平道路。