delay-modulated signal

简明释义

延迟调制信号;

英英释义

例句

1.Digital audio processing often utilizes a delay-modulated signal to create unique sound effects.

数字音频处理通常利用延迟调制信号来创建独特的声音效果。

2.The researchers analyzed the effects of a delay-modulated signal on data transmission rates.

研究人员分析了延迟调制信号对数据传输速率的影响。

3.A delay-modulated signal can be generated using specific algorithms in software-defined radios.

在软件定义无线电中，可以使用特定算法生成延迟调制信号。

4.In telecommunications, a delay-modulated signal is used to encode information by varying the time delay between pulses.

在电信中，延迟调制信号用于通过改变脉冲之间的时间延迟来编码信息。

5.In radar systems, a delay-modulated signal can improve target detection capabilities.

在雷达系统中，延迟调制信号可以提高目标检测能力。

作文

In the realm of signal processing, the concept of a delay-modulated signal is crucial for understanding how information can be transmitted and manipulated. A delay-modulated signal refers to a type of signal where the modulation is applied based on the timing or delay of the signal itself. This technique is often used in various communication systems to enhance the quality and efficiency of data transmission.To comprehend the significance of a delay-modulated signal, it is essential to explore its applications. One of the primary uses of this signal type is in digital communication systems, where data needs to be sent over long distances without degradation. By utilizing delay-modulated signals, engineers can ensure that the integrity of the transmitted information is maintained, even when faced with potential interference or noise.Moreover, delay-modulated signals play a vital role in radar and sonar technologies. In these systems, the time delay between the transmission and reception of signals is critical for accurately determining the distance and speed of objects. By modulating the signal based on these delays, operators can obtain precise measurements that are essential for navigation and surveillance.Another fascinating aspect of delay-modulated signals is their application in audio processing. For instance, in music production, producers often use delay effects to create depth and texture in sound. By manipulating the timing of audio signals, they can produce echo effects that enhance the listening experience. This practical application highlights how the principles of delay-modulated signals extend beyond technical fields and into creative industries.Understanding delay-modulated signals also requires knowledge of the underlying mathematical concepts. The modulation process typically involves altering the amplitude, frequency, or phase of the signal in relation to its delay. This relationship can be described using complex mathematical equations, which help in designing systems that effectively utilize these signals.Furthermore, the study of delay-modulated signals leads to advancements in technology. As researchers continue to explore new methods of signal modulation, they uncover innovative solutions that improve communication networks, enhance multimedia applications, and even contribute to the development of smart technologies. The ongoing research in this area emphasizes the importance of delay-modulated signals in shaping the future of technology.In conclusion, the concept of a delay-modulated signal is fundamental to various fields, including telecommunications, audio processing, and radar technology. Its ability to enhance data transmission and provide accurate measurements makes it an invaluable tool for engineers and scientists alike. As we continue to advance our understanding of these signals, we pave the way for more efficient and effective communication systems that will undoubtedly shape our world in the years to come.

在信号处理领域，延迟调制信号的概念对于理解信息如何被传输和操控至关重要。延迟调制信号指的是一种信号，其中调制是基于信号本身的时序或延迟进行的。这种技术常用于各种通信系统中，以提高数据传输的质量和效率。要理解延迟调制信号的重要性，必须探讨其应用。其中一个主要用途是在数字通信系统中，数据需要在长距离内发送而不发生退化。通过利用延迟调制信号，工程师可以确保所传输信息的完整性，即使在面临潜在干扰或噪声时也是如此。此外，延迟调制信号在雷达和声纳技术中也发挥着至关重要的作用。在这些系统中，信号的发射与接收之间的时间延迟对于准确确定物体的距离和速度至关重要。通过根据这些延迟调制信号，操作员可以获得精确的测量，这对导航和监视至关重要。延迟调制信号的另一个迷人方面是其在音频处理中的应用。例如，在音乐制作中，制作人常常使用延迟效果来创造声音的深度和质感。通过操控音频信号的时序，他们可以产生增强听觉体验的回声效果。这一实际应用突显了延迟调制信号原理如何超越技术领域，进入创意产业。理解延迟调制信号还需要了解其背后的数学概念。调制过程通常涉及根据信号的延迟改变信号的幅度、频率或相位。这种关系可以用复杂的数学方程描述，帮助设计有效利用这些信号的系统。此外，研究延迟调制信号促进了技术的进步。随着研究人员继续探索信号调制的新方法，他们发现创新解决方案，提高了通信网络、增强了多媒体应用，甚至为智能技术的发展做出了贡献。在这一领域的持续研究强调了延迟调制信号在塑造未来技术中的重要性。总之，延迟调制信号的概念在电信、音频处理和雷达技术等多个领域是基础性的。它增强数据传输和提供准确测量的能力，使其成为工程师和科学家不可或缺的工具。随着我们对这些信号理解的不断加深，我们为更高效、更有效的通信系统铺平了道路，这无疑将在未来几年影响我们的世界。