subordinated automatic speed control

简明释义

附属自动转速控制器

英英释义

例句

1.The aircraft's subordinated automatic speed control system adjusts the throttle based on altitude and weight.

飞机的从属自动速度控制系统根据高度和重量调整油门。

2.The new train model features subordinated automatic speed control, which ensures smooth operation at varying speeds.

新列车型号配备了从属自动速度控制，确保在不同速度下平稳运行。

3.The marine vessel employs subordinated automatic speed control to navigate through changing water currents safely.

这艘海洋船舶采用从属自动速度控制安全地穿越变化的水流。

4.In the automotive industry, subordinated automatic speed control helps maintain optimal speed in traffic conditions.

在汽车工业中，从属自动速度控制有助于在交通条件下保持最佳速度。

5.Manufacturing robots equipped with subordinated automatic speed control can adapt their speed to optimize production efficiency.

配备了从属自动速度控制的制造机器人可以调整速度以优化生产效率。

作文

In the modern world, technology has become an integral part of our daily lives. One of the most significant advancements in engineering is the development of automated systems that enhance efficiency and safety in various applications. Among these innovations, the concept of subordinated automatic speed control plays a crucial role, particularly in the fields of transportation and industrial machinery. This essay aims to explore the importance and functionality of subordinated automatic speed control in contemporary systems while providing insights into its implications for safety and efficiency.To begin with, subordinated automatic speed control refers to a system that regulates the speed of a machine or vehicle automatically, based on predefined parameters and subordinate commands. This means that the primary system can adjust its speed according to the conditions it encounters, such as traffic, load, or environmental factors. By doing so, it ensures optimal performance while minimizing the risk of accidents or mechanical failures.For instance, in automotive technology, subordinated automatic speed control is often integrated into cruise control systems. When activated, these systems allow vehicles to maintain a steady speed without the driver needing to manually control the accelerator. However, if the system detects a slower-moving vehicle ahead, it can automatically reduce speed to maintain a safe following distance. This feature not only enhances comfort during long drives but also significantly contributes to road safety by reducing the likelihood of collisions.Moreover, the application of subordinated automatic speed control extends beyond automobiles to various industrial machines. In manufacturing processes, machines equipped with this technology can adjust their operational speed according to the workload, ensuring that they function efficiently without overloading or underutilizing resources. For example, conveyor systems can modulate their speed based on the volume of products being transported, optimizing workflow and reducing energy consumption.The benefits of implementing subordinated automatic speed control are numerous. Firstly, it enhances safety by minimizing human error, which is a leading cause of accidents in both driving and industrial settings. By allowing machines to make real-time adjustments, the potential for dangerous situations is significantly reduced. Secondly, it improves efficiency by ensuring that systems operate at optimal speeds, thus saving time and resources.However, the implementation of subordinated automatic speed control does come with challenges. One of the primary concerns is the need for reliable sensors and algorithms that can accurately assess conditions and make appropriate adjustments. If the system fails to respond correctly to changing circumstances, it could lead to catastrophic failures. Therefore, ongoing research and development are essential to enhance the reliability and effectiveness of these systems.In conclusion, subordinated automatic speed control represents a significant advancement in technology that has far-reaching implications for safety and efficiency in various fields. By enabling machines and vehicles to automatically adjust their speed based on real-time conditions, this technology not only enhances operational performance but also reduces the risk of accidents. As we continue to innovate and improve these systems, it is crucial to address the challenges associated with their implementation to ensure that they can be relied upon in critical situations. The future of automation lies in technologies like subordinated automatic speed control, paving the way for safer and more efficient systems across the globe.

在现代世界中，技术已成为我们日常生活中不可或缺的一部分。工程领域中最重要的进步之一是自动化系统的发展，这些系统提高了各种应用中的效率和安全性。在这些创新中，subordinated automatic speed control的概念发挥着至关重要的作用，尤其是在交通和工业机械领域。本文旨在探讨subordinated automatic speed control在当代系统中的重要性和功能，同时提供其对安全性和效率的影响的见解。首先，subordinated automatic speed control指的是一种自动调节机器或车辆速度的系统，基于预定义的参数和从属命令。这意味着主要系统可以根据遇到的条件（如交通、负载或环境因素）调整其速度。通过这样做，它确保了最佳性能，同时最小化事故或机械故障的风险。例如，在汽车技术中，subordinated automatic speed control通常集成在巡航控制系统中。当激活时，这些系统允许车辆在不需要驾驶员手动控制油门的情况下保持稳定速度。然而，如果系统检测到前方有一辆行驶较慢的车辆，它可以自动减速以保持安全的跟车距离。这个功能不仅在长途驾驶中提高了舒适度，而且通过减少碰撞的可能性显著贡献了道路安全。此外，subordinated automatic speed control的应用超越了汽车，扩展到各种工业机器。在制造过程中，配备此技术的机器可以根据工作负荷调整其操作速度，确保它们高效运行，而不会过载或未充分利用资源。例如，输送系统可以根据运输的产品数量调节其速度，从而优化工作流程并减少能源消耗。实施subordinated automatic speed control的好处是众多的。首先，它通过最小化人为错误来提高安全性，而人为错误是驾驶和工业环境中事故的主要原因。通过让机器实时进行调整，潜在危险情况的发生显著减少。其次，它通过确保系统以最佳速度运行来提高效率，从而节省时间和资源。然而，实施subordinated automatic speed control确实面临挑战。主要关注点之一是需要可靠的传感器和算法，这些传感器和算法能够准确评估条件并做出适当的调整。如果系统无法正确响应变化的情况，可能会导致灾难性的故障。因此，持续的研究和开发对于增强这些系统的可靠性和有效性至关重要。总之，subordinated automatic speed control代表了一项重要的技术进步，对各个领域的安全性和效率具有深远的影响。通过使机器和车辆能够根据实时条件自动调整速度，这项技术不仅提高了操作性能，还降低了事故风险。随着我们不断创新和改进这些系统，解决与其实施相关的挑战至关重要，以确保它们在关键情况下的可靠性。自动化的未来在于像subordinated automatic speed control这样的技术，为全球更安全、更高效的系统铺平了道路。