pulse separation

简明释义

脉冲间隔

英英释义

例句

1.For better data collection, we need to set the correct pulse separation between each measurement.

为了更好的数据收集，我们需要在每次测量之间设置正确的脉冲间隔。

2.The engineer measured the pulse separation to determine the efficiency of the signal transmission.

工程师测量了脉冲间隔以确定信号传输的效率。

3.Researchers studied the effects of pulse separation on the behavior of particles in a fluid.

研究人员研究了脉冲间隔对流体中粒子行为的影响。

4.In laser technology, pulse separation is crucial for achieving high-resolution images.

在激光技术中，脉冲间隔对获得高分辨率图像至关重要。

5.The pulse separation in this experiment was adjusted to optimize the results.

在这个实验中，脉冲间隔被调整以优化结果。

作文

In the field of physics and engineering, the concept of pulse separation plays a crucial role in understanding waveforms and signal processing. Essentially, pulse separation refers to the distance or time interval between two distinct pulses in a waveform. This concept is particularly important in various applications such as telecommunications, radar systems, and medical imaging. By analyzing the pulse separation, engineers can determine the effectiveness of signal transmission and improve the clarity of the received information.For instance, in telecommunications, signals are often transmitted in the form of pulses. If the pulse separation is too small, the pulses may overlap, leading to interference that can distort the message being sent. On the other hand, if the pulse separation is too large, it may result in inefficient use of bandwidth, as there will be gaps in the signal that could have been utilized for additional data transmission. Therefore, finding the optimal pulse separation is vital for ensuring high-quality communication.Similarly, in radar technology, pulse separation is essential for accurately determining the distance to an object. Radar systems emit pulses of radio waves and measure the time it takes for the waves to bounce back from an object. The pulse separation helps in distinguishing between multiple objects in close proximity. If the pulse separation is not sufficient, the system may struggle to differentiate between the echoes from different objects, leading to inaccurate readings.In medical imaging, particularly in techniques such as ultrasound, pulse separation is equally significant. Ultrasound machines send sound waves into the body and measure the echoes that return. The pulse separation determines the resolution of the images produced. A smaller pulse separation allows for finer detail in the images, which is crucial for accurate diagnoses. Conversely, if the pulse separation is too large, important details may be missed, resulting in a less effective examination.Understanding the implications of pulse separation extends beyond technical fields. It also has metaphorical significance in our daily lives. For example, in communication, the timing of our responses can greatly affect the clarity and effectiveness of our conversations. Just as in signal processing, where the right pulse separation ensures clear communication, individuals must also navigate their interactions with appropriate timing to avoid misunderstandings.In conclusion, the concept of pulse separation is integral to various scientific and engineering disciplines. Its applications in telecommunications, radar systems, and medical imaging highlight its importance in ensuring effective communication and accurate measurements. Moreover, this concept serves as a reminder of the significance of timing in our everyday interactions. By mastering the principles of pulse separation, we can enhance both our technological capabilities and our personal communications, leading to clearer connections and improved outcomes in multiple areas of life.

在物理和工程领域，脉冲间隔的概念在理解波形和信号处理方面起着至关重要的作用。基本上，脉冲间隔是指波形中两个不同脉冲之间的距离或时间间隔。这个概念在电信、雷达系统和医学成像等各种应用中尤为重要。通过分析脉冲间隔，工程师可以确定信号传输的有效性，并改善接收到的信息的清晰度。例如，在电信中，信号通常以脉冲的形式传输。如果脉冲间隔太小，脉冲可能会重叠，导致干扰，从而扭曲所发送的信息。另一方面，如果脉冲间隔太大，可能会导致带宽的低效使用，因为信号中会存在本可以用于额外数据传输的空隙。因此，找到最佳的脉冲间隔对于确保高质量通信至关重要。同样，在雷达技术中，脉冲间隔对于准确确定物体的距离至关重要。雷达系统发射无线电波脉冲，并测量波从物体反弹回来的时间。脉冲间隔有助于区分多个相近物体。如果脉冲间隔不足，系统可能难以区分来自不同物体的回声，导致读数不准确。在医学成像中，特别是在超声等技术中，脉冲间隔同样重要。超声机器将声波发送到体内并测量返回的回声。脉冲间隔决定了生成图像的分辨率。较小的脉冲间隔允许图像中的细节更精细，这对于准确诊断至关重要。相反，如果脉冲间隔过大，重要细节可能会被遗漏，导致检查效果不佳。理解脉冲间隔的影响不仅限于技术领域。它在我们日常生活中也具有隐喻意义。例如，在沟通中，我们回应的时机对我们对话的清晰度和有效性有很大影响。正如在信号处理中，适当的脉冲间隔确保了清晰的沟通，个人也必须在互动中以适当的时机来避免误解。总之，脉冲间隔的概念在各种科学和工程学科中都是不可或缺的。它在电信、雷达系统和医学成像中的应用突显了其在确保有效沟通和准确测量方面的重要性。此外，这个概念也提醒我们在日常互动中时机的重要性。通过掌握脉冲间隔的原理，我们可以增强技术能力和个人沟通，从而在生活的多个领域实现更清晰的联系和更好的结果。