effective actuation time

简明释义

有效激励时间

英英释义

例句

1.The effective actuation time is critical for applications requiring rapid response, such as drone navigation.

对于需要快速响应的应用，如无人机导航，有效驱动时间至关重要。

2.The feedback loop was adjusted to minimize the effective actuation time, resulting in smoother operations.

反馈回路经过调整，以最小化有效驱动时间，从而使操作更加平滑。

3.By optimizing the system design, we achieved a lower effective actuation time which enhanced overall efficiency.

通过优化系统设计，我们实现了更低的有效驱动时间，从而提高了整体效率。

4.The robot's performance improved significantly after we reduced the effective actuation time to less than 50 milliseconds.

在我们将有效驱动时间减少到50毫秒以下后，机器人的性能显著提高。

5.In this experiment, we measured the effective actuation time of the actuator to ensure precise control.

在这个实验中，我们测量了执行器的有效驱动时间以确保精确控制。

作文

In the world of engineering and automation, the term effective actuation time plays a crucial role in determining the efficiency and responsiveness of systems. The effective actuation time refers to the duration it takes for a system to respond to a command or trigger an action after receiving an input signal. This concept is particularly significant in fields such as robotics, manufacturing, and aerospace, where precision and timing are paramount for optimal performance.To understand the importance of effective actuation time, let’s consider a practical example in the field of robotics. Imagine a robotic arm designed to assemble components on a production line. If the effective actuation time of the robotic arm is too long, it may lead to delays in the assembly process, resulting in decreased productivity. Conversely, if the effective actuation time is minimized, the robotic arm can operate smoothly and efficiently, meeting production targets and maintaining a steady workflow.Moreover, the effective actuation time is not solely dependent on the mechanical components of the system. It also involves the software algorithms that control the actuators. For instance, advanced control algorithms can predict the necessary movements and adjust the actuator responses accordingly, thereby reducing the effective actuation time. This integration of hardware and software is essential for achieving high-performance levels in automated systems.In addition to robotics, the concept of effective actuation time is equally applicable in the aerospace industry. Aircraft systems must respond quickly to pilot commands to ensure safety and efficiency during flight. An aircraft's control surfaces, such as ailerons and elevators, must have a minimal effective actuation time to maintain stability and maneuverability. Any delays in response could have serious consequences, especially in critical situations such as takeoff and landing.Furthermore, the effective actuation time is a vital consideration in the development of autonomous vehicles. These vehicles rely on a myriad of sensors and actuators to navigate their environment. The faster the effective actuation time, the more responsive the vehicle will be to changing conditions, such as obstacles or traffic signals. This responsiveness is key to ensuring passenger safety and enhancing the overall driving experience.In conclusion, the effective actuation time is a fundamental concept that underpins the performance of various automated systems across multiple industries. Understanding and optimizing this parameter can lead to significant improvements in efficiency, safety, and productivity. As technology continues to advance, the significance of minimizing effective actuation time will only grow, driving innovation and enhancing the capabilities of modern engineering solutions.

在工程和自动化的世界中，术语有效执行时间在确定系统的效率和响应能力方面发挥着至关重要的作用。有效执行时间指的是系统在接收到输入信号后，对命令作出响应或触发动作所需的时间。这一概念在机器人技术、制造业和航空航天等领域尤为重要，因为在这些领域，精确性和时效性对于实现最佳性能至关重要。为了理解有效执行时间的重要性，让我们考虑一个机器人技术领域的实际例子。设想一个设计用于在生产线上组装组件的机械臂。如果这台机械臂的有效执行时间过长，可能会导致组装过程中的延误，从而降低生产效率。相反，如果有效执行时间被最小化，机械臂就能够平稳高效地运作，达到生产目标并保持稳定的工作流程。此外，有效执行时间不仅仅依赖于系统的机械部件。它还涉及控制执行器的软件算法。例如，先进的控制算法可以预测必要的运动，并相应地调整执行器的响应，从而减少有效执行时间。这一硬件与软件的集成对于实现自动化系统的高性能水平至关重要。除了机器人技术，有效执行时间的概念在航空航天工业中同样适用。飞机系统必须快速响应飞行员的指令，以确保飞行过程中的安全和效率。飞机的控制面，如副翼和升降舵，必须具备最小的有效执行时间以保持稳定性和机动性。任何响应延迟都可能产生严重后果，尤其是在起飞和着陆等关键时刻。此外，有效执行时间是开发自动驾驶汽车时的重要考虑因素。这些车辆依赖于众多传感器和执行器来导航其环境。有效执行时间越快，车辆对变化条件（如障碍物或交通信号）的响应就越灵敏。这种响应能力对于确保乘客安全和提升整体驾驶体验至关重要。总之，有效执行时间是一个基本概念，它支撑着各个行业中各种自动化系统的性能。理解和优化这个参数可以显著提高效率、安全性和生产力。随着技术的不断进步，最小化有效执行时间的重要性只会增加，推动创新并增强现代工程解决方案的能力。