sensitivity time control

简明释义

灵敏度时间控制灵敏度时间调整

英英释义

例句

1.The camera settings allow for sensitivity time control, which helps in capturing images in low light conditions.

相机设置允许进行灵敏度时间控制，这有助于在低光条件下拍摄图像。

2.Using sensitivity time control, the thermostat can adjust the temperature more effectively based on user habits.

使用灵敏度时间控制，温控器可以根据用户习惯更有效地调整温度。

3.In audio engineering, sensitivity time control is crucial for managing sound levels during live performances.

在音频工程中，灵敏度时间控制对于管理现场表演中的音量水平至关重要。

4.The drone's flight stability is improved with sensitivity time control during windy conditions.

在多风条件下，飞行器的稳定性通过灵敏度时间控制得到了改善。

5.The software includes a feature for sensitivity time control to enhance user experience when adjusting preferences.

该软件包括一个灵敏度时间控制功能，以增强用户在调整首选项时的体验。

作文

In today's fast-paced world, technology continues to evolve at an unprecedented rate. One of the key concepts that have emerged in various fields, particularly in electronics and automation, is sensitivity time control. This term refers to the ability to manage and adjust the responsiveness of a system over time, ensuring that it reacts appropriately to changes in its environment. Understanding sensitivity time control is crucial for engineers and developers who aim to create efficient and reliable systems.To elaborate, sensitivity time control can be seen as a balancing act between speed and accuracy. For instance, in automated manufacturing processes, machines must respond swiftly to variations in material properties or operational conditions. If a machine reacts too slowly, it may lead to defects or inefficiencies. Conversely, if it responds too quickly without adequate processing, it might misinterpret the data and produce errors. Therefore, achieving optimal sensitivity time control is vital for maintaining quality and productivity.Moreover, this concept extends beyond industrial applications. In the realm of software development, especially in user interface design, sensitivity time control plays a significant role in enhancing user experience. Developers must ensure that applications respond promptly to user inputs while also allowing for a brief delay in certain situations to prevent accidental actions. For example, when a user hovers over a button, a slight delay before a tooltip appears can help avoid confusion and improve interaction.Another important aspect of sensitivity time control is its application in signal processing. In telecommunications, signals must be processed with precision and speed to ensure clear communication. Engineers utilize sensitivity time control to filter out noise and enhance signal quality, which is essential for maintaining effective communication in various technologies, including mobile devices and satellite systems.Furthermore, in the field of robotics, sensitivity time control is critical for enabling robots to navigate through complex environments. Robots equipped with sensors must be able to interpret data from their surroundings and react accordingly. A well-calibrated sensitivity time control mechanism allows robots to make quick decisions based on real-time information, which is essential for tasks such as obstacle avoidance and path planning.In conclusion, sensitivity time control is a fundamental principle that underpins the functionality of many modern technologies. Its significance spans across various domains, including manufacturing, software development, telecommunications, and robotics. By mastering sensitivity time control, professionals can enhance the performance and reliability of their systems, ultimately leading to improved outcomes in their respective fields. As technology continues to advance, the importance of understanding and implementing sensitivity time control will only grow, making it a crucial area of focus for future innovations.

在当今快节奏的世界中，技术以空前的速度不断发展。一个在各个领域，特别是在电子和自动化领域中出现的关键概念是敏感性时间控制。这个术语指的是管理和调整系统对环境变化响应能力的能力，从而确保系统适当地反应。理解敏感性时间控制对于旨在创建高效可靠系统的工程师和开发人员至关重要。进一步说，敏感性时间控制可以看作是速度与准确性之间的平衡。例如，在自动化制造过程中，机器必须迅速响应材料属性或操作条件的变化。如果机器反应过慢，可能会导致缺陷或低效。相反，如果它反应过快而没有足够的处理，可能会误解数据并产生错误。因此，实现最佳的敏感性时间控制对于保持质量和生产力至关重要。此外，这一概念超越了工业应用。在软件开发领域，尤其是在用户界面设计中，敏感性时间控制在提升用户体验方面发挥着重要作用。开发人员必须确保应用程序能够迅速响应用户输入，同时在某些情况下允许短暂的延迟，以防止意外操作。例如，当用户将鼠标悬停在按钮上时，工具提示出现的轻微延迟可以帮助避免混淆并改善交互。另一个重要的敏感性时间控制方面是其在信号处理中的应用。在电信领域，信号必须以精确和快速的方式进行处理，以确保清晰的通信。工程师利用敏感性时间控制来过滤噪声并增强信号质量，这对于维持包括移动设备和卫星系统在内的各种技术中的有效通信至关重要。此外，在机器人领域，敏感性时间控制对于使机器人能够在复杂环境中导航至关重要。配备传感器的机器人必须能够解释周围环境的数据并作出相应反应。经过良好校准的敏感性时间控制机制使机器人能够根据实时信息做出快速决策，这对于避障和路径规划等任务至关重要。总之，敏感性时间控制是支撑许多现代技术功能的基本原则。其重要性跨越多个领域，包括制造、软件开发、电信和机器人。通过掌握敏感性时间控制，专业人士可以提高其系统的性能和可靠性，最终在各自领域取得更好的成果。随着技术的不断进步，理解和实施敏感性时间控制的重要性只会增加，使其成为未来创新的关键关注领域。