pulses per miles

简明释义

每海里脉冲数

英英释义

例句

1.In the lab, researchers measured the pulses per miles to study the effects of exercise on heart rate variability.

在实验室中，研究人员测量了每英里脉冲以研究运动对心率变异性的影响。

2.During the marathon, the coach advised the runners to maintain a steady pulses per miles rate to optimize their performance.

在马拉松比赛中，教练建议跑者保持稳定的每英里脉冲速率，以优化他们的表现。

3.The cycling app provides data on pulses per miles to help cyclists monitor their cardiovascular health during long rides.

这款骑行应用提供关于每英里脉冲的数据，帮助骑自行车的人在长途骑行中监测他们的心血管健康。

4.He noticed that his pulses per miles increased significantly when he switched from jogging to sprinting.

他注意到，当他从慢跑改为短跑时，他的每英里脉冲显著增加。

5.The new fitness tracker calculates your heart rate in terms of pulses per miles, which means it tracks how many heartbeats occur for every mile you run.

新的健身追踪器以每英里脉冲的形式计算你的心率，这意味着它跟踪你每跑一英里发生的心跳次数。

作文

In the realm of modern technology, particularly in fields such as telecommunications and data transmission, the term pulses per miles plays a crucial role. Understanding this concept is essential for professionals working in these areas, as it directly relates to the efficiency and effectiveness of signal transmission over long distances. Essentially, pulses per miles refers to the number of electrical or optical signals (or 'pulses') that can be transmitted over a mile of cable or fiber optic line. This measurement is vital because it determines how much information can be sent within a given distance, impacting everything from internet speeds to the quality of phone calls.To elaborate further, let’s consider how pulses per miles is applied in real-world scenarios. For instance, in fiber optic communication, light pulses are transmitted through glass fibers. The greater the number of pulses per miles, the higher the bandwidth available for data transfer. This means that more users can access high-speed internet simultaneously without degradation of service. The ability to transmit a high number of pulses per miles is especially important in urban areas where demand for bandwidth is significantly higher.Moreover, advancements in technology have allowed us to increase the pulses per miles that can be achieved. Innovations in materials used for cables, improved signal processing techniques, and better error correction algorithms have all contributed to higher capacity transmissions. As a result, telecommunications companies can provide faster and more reliable services to their customers, which is increasingly important in our digital age.However, it is not just about increasing the number of pulses per miles. There are also challenges associated with maintaining signal integrity over long distances. Factors such as attenuation (the loss of signal strength) and interference can affect the quality of the transmitted pulses. Engineers must carefully design systems to minimize these issues, ensuring that the maximum number of pulses per miles can be achieved without compromising the clarity and reliability of the signal.Furthermore, understanding pulses per miles is not limited to telecommunications alone. It has implications in various other fields, including medical technology and automotive systems. For example, in medical imaging, the concept of pulse sequences is critical for obtaining clear images. In automotive applications, the frequency of pulses can determine the responsiveness of various electronic systems in vehicles, enhancing safety and performance.In conclusion, the term pulses per miles encapsulates a fundamental aspect of data transmission and signal processing. Its importance spans multiple industries, highlighting the need for continued innovation and improvement in technology. As we move forward, a deeper understanding of how to optimize pulses per miles will be essential for meeting the growing demands of our interconnected world. With ongoing research and development, the future promises even greater advancements in how we communicate and share information across vast distances.

在现代科技领域，特别是在电信和数据传输等领域，术语每英里脉冲数起着至关重要的作用。理解这个概念对于在这些领域工作的专业人士来说至关重要，因为它直接关系到长距离信号传输的效率和有效性。基本上，每英里脉冲数指的是可以通过一英里电缆或光纤线路传输的电信号或光信号（或“脉冲”）的数量。这个测量非常重要，因为它决定了在给定距离内可以发送多少信息，从而影响从互联网速度到电话通话质量的一切。进一步阐述，让我们考虑一下每英里脉冲数在现实场景中的应用。例如，在光纤通信中，光脉冲通过玻璃光纤传输。每英里脉冲数越大，数据传输的带宽就越高。这意味着更多的用户可以同时访问高速互联网，而不会降低服务质量。在城市地区，带宽需求显著更高，因此能够传输大量的每英里脉冲数尤其重要。此外，技术的进步使我们能够提高可实现的每英里脉冲数。电缆使用的材料创新、信号处理技术的改进以及更好的错误校正算法都促进了更高容量的传输。因此，电信公司能够为客户提供更快、更可靠的服务，这在我们的数字时代变得越来越重要。然而，增加每英里脉冲数并不仅仅是目标。保持长距离信号完整性也面临挑战。衰减（信号强度的损失）和干扰等因素会影响传输脉冲的质量。工程师必须仔细设计系统，以最小化这些问题，确保可以实现最大数量的每英里脉冲数，而不妥协信号的清晰度和可靠性。此外，理解每英里脉冲数不仅限于电信。它在其他多个领域也有影响，包括医疗技术和汽车系统。例如，在医学成像中，脉冲序列的概念对于获得清晰图像至关重要。在汽车应用中，脉冲的频率可以决定车辆各种电子系统的响应能力，从而增强安全性和性能。总之，术语每英里脉冲数概括了数据传输和信号处理的一个基本方面。它的重要性跨越多个行业，突显了继续创新和改善技术的必要性。随着我们向前发展，深入理解如何优化每英里脉冲数将对满足我们互联世界日益增长的需求至关重要。随着持续的研究和开发，未来承诺在我们如何在广阔距离之间进行沟通和共享信息方面取得更大的进步。