time base unit

简明释义

时基装置

英英释义

例句

1.The software allows users to select their preferred time base unit 时间基准单位 for better analysis.

该软件允许用户选择他们喜欢的时间基准单位以便更好地进行分析。

2.The clock's time base unit 时间基准单位 is critical for ensuring synchronized operations in electronic devices.

时钟的时间基准单位对于确保电子设备的同步操作至关重要。

3.Different systems may use various time base units 时间基准单位, making interoperability a challenge.

不同的系统可能使用各种时间基准单位，这使得互操作性成为一个挑战。

4.In digital signal processing, the accuracy of the measurement depends on the defined time base unit 时间基准单位.

在数字信号处理过程中，测量的准确性取决于定义的时间基准单位。

5.During the experiment, we adjusted the time base unit 时间基准单位 to improve the resolution of the data collected.

在实验过程中，我们调整了时间基准单位以提高收集数据的分辨率。

作文

In the realm of physics and engineering, the concept of a time base unit is fundamental to understanding how we measure and quantify time. A time base unit is essentially a standard measurement of time that serves as a reference point for various scientific calculations and experiments. It is crucial for ensuring consistency and accuracy across different measurements and applications. The most commonly used time base unit in the International System of Units (SI) is the second, which is defined based on the vibrations of cesium atoms. This definition provides a precise and reliable way to measure time, making it indispensable in various fields such as telecommunications, navigation, and even in everyday technology like smartphones and computers.Understanding the importance of the time base unit can be illustrated through its application in global positioning systems (GPS). GPS relies on precise timing to triangulate the position of a device on Earth. Each satellite in the GPS constellation broadcasts signals that include the precise time the signal was sent. By comparing the time the signal was received with the known time of transmission, the GPS receiver can calculate its distance from each satellite. This process requires an accurate time base unit to ensure that the calculations are correct. If there were any discrepancies in the timing, the resulting position could be significantly off, leading to errors in navigation.In addition to GPS, the time base unit plays a critical role in the field of telecommunications. Data transmission over the internet and mobile networks relies on synchronized timing to ensure that packets of data are sent and received in the correct order. Without a reliable time base unit, communication systems would face delays and errors, ultimately affecting the quality of service provided to users. For instance, in voice over IP (VoIP) technologies, maintaining a consistent time base unit is essential to prevent issues such as echo and latency, which can disrupt conversations.Moreover, the significance of the time base unit extends to scientific research as well. Experiments often require precise timing to observe phenomena accurately. For example, in particle physics, researchers may need to measure the time intervals between particle collisions to understand their behavior better. Here, the time base unit becomes a critical factor in ensuring that data collected is valid and interpretable. Any variation in time measurement could lead to incorrect conclusions about the particles' interactions.In conclusion, the time base unit is more than just a simple measurement of time; it is a cornerstone of modern science and technology. Its applications span across various fields, including navigation, telecommunications, and scientific research. By providing a standardized way to measure time, the time base unit ensures that our understanding of the world remains accurate and reliable. As technology continues to advance, the importance of maintaining precise time base units will only grow, highlighting the need for ongoing research and development in this area. Understanding and mastering the concept of the time base unit is essential for anyone involved in scientific or engineering disciplines, as it underpins much of the work done in these fields today.

在物理和工程领域，时间基准单位的概念对于理解我们如何测量和量化时间至关重要。时间基准单位本质上是一个时间的标准测量，作为各种科学计算和实验的参考点。它对于确保不同测量和应用之间的一致性和准确性至关重要。在国际单位制（SI）中，最常用的时间基准单位是秒，其定义基于铯原子的振动。这一定义提供了一种精确可靠的时间测量方式，使其在电信、导航以及智能手机和计算机等日常技术中不可或缺。理解时间基准单位的重要性可以通过其在全球定位系统（GPS）中的应用来说明。GPS依赖于精确的时序来三角测量设备在地球上的位置。GPS星座中的每颗卫星广播包含信号发送的精确时间。通过比较接收到的信号时间与已知的发送时间，GPS接收器可以计算出与每颗卫星的距离。这个过程需要一个准确的时间基准单位来确保计算的正确性。如果时序存在任何差异，结果的位置可能会大大偏离，导致导航错误。除了GPS之外，时间基准单位在电信领域也发挥着关键作用。互联网和移动网络的数据传输依赖于同步时序，以确保数据包按正确顺序发送和接收。如果没有可靠的时间基准单位，通信系统将面临延迟和错误，最终影响用户提供的服务质量。例如，在语音IP（VoIP）技术中，保持一致的时间基准单位对于防止回声和延迟等问题至关重要，这些问题可能会干扰通话。此外，时间基准单位的重要性还扩展到科学研究领域。实验往往需要精确的时序来准确观察现象。例如，在粒子物理学中，研究人员可能需要测量粒子碰撞之间的时间间隔，以更好地理解它们的行为。在这里，时间基准单位成为确保所收集数据有效且可解释的关键因素。时间测量的任何变化都可能导致对粒子相互作用的错误结论。总之，时间基准单位不仅仅是简单的时间测量；它是现代科学和技术的基石。它的应用跨越多个领域，包括导航、电信和科学研究。通过提供一种标准化的时间测量方式，时间基准单位确保了我们对世界的理解保持准确可靠。随着技术的不断发展，维护精确的时间基准单位的重要性只会增加，突显了在这一领域持续研究和发展的必要性。理解和掌握时间基准单位的概念对于任何参与科学或工程学科的人来说都是至关重要的，因为它支撑着这些领域今天的大部分工作。