intercarrier sound reception

简明释义

内载波伴音接收法

英英释义

例句

1.In areas with poor signal, the intercarrier sound reception can significantly affect the overall viewing experience.

在信号差的地区，载波间声音接收可能会显著影响整体观看体验。

2.To enhance the intercarrier sound reception, users are advised to adjust their antenna direction.

为了增强载波间声音接收，建议用户调整天线方向。

3.The technician explained that the intercarrier sound reception technology minimizes background noise during broadcasts.

技术员解释说，载波间声音接收技术在广播过程中最小化背景噪音。

4.The new television model features improved intercarrier sound reception, allowing for clearer audio when switching between channels.

新电视型号具有改进的载波间声音接收功能，使在切换频道时音频更清晰。

5.During the demonstration, the engineer showcased how intercarrier sound reception improves sound quality across different frequencies.

在演示中，工程师展示了载波间声音接收如何改善不同频率的音质。

作文

In the modern world of telecommunications, the clarity and quality of sound transmission are paramount. One of the key concepts that contribute to this clarity is intercarrier sound reception. This term refers to a method used in communication systems where multiple signals are transmitted simultaneously over a single channel. The ability to effectively manage and separate these signals is crucial for maintaining high-quality audio during transmission. Intercarrier sound reception allows for the reception of sound signals from different carriers without interference, ensuring that each signal can be processed and understood clearly by the receiver.The importance of intercarrier sound reception can be seen in various applications, such as radio broadcasting, television, and even internet communications. For instance, in radio broadcasting, multiple stations may operate on overlapping frequencies. Without effective intercarrier sound reception, listeners would experience muddled audio, making it difficult to enjoy their favorite programs. By employing advanced technologies that utilize intercarrier sound reception, broadcasters can deliver multiple audio streams clearly and distinctly, enhancing the listener's experience.Furthermore, the rise of digital communication has further emphasized the need for effective intercarrier sound reception. In digital systems, data is often compressed and transmitted in packets. These packets can contain various types of information, including audio, video, and text. If the system does not efficiently handle intercarrier sound reception, the result can be a loss of quality or even complete data loss. Therefore, engineers and developers must prioritize this aspect when designing communication protocols to ensure that users receive clear and uninterrupted sound.Another area where intercarrier sound reception plays a vital role is in mobile communications. As smartphones have become ubiquitous, the demand for high-quality audio during calls has increased significantly. Mobile networks rely on intercarrier sound reception to manage the complex interplay of multiple voice and data signals. This technology helps to prevent cross-talk and ensures that conversations remain clear, regardless of the number of simultaneous users on the network.In conclusion, intercarrier sound reception is an essential concept in the field of telecommunications. It enables the simultaneous transmission and reception of multiple audio signals without interference, thereby ensuring clarity and quality. As technology continues to evolve, the importance of intercarrier sound reception will only grow, making it a focal point for engineers and developers striving to improve communication systems. Understanding this concept is crucial for anyone involved in the fields of audio engineering, telecommunications, or digital communications, as it underpins the quality of sound we experience daily. Without effective intercarrier sound reception, our ability to communicate through various media would be severely compromised.

在现代电信世界中，声音传输的清晰度和质量至关重要。一个有助于实现这种清晰度的关键概念是载波间声音接收。这个术语指的是一种通信系统中同时通过单个通道传输多个信号的方法。有效管理和分离这些信号的能力对于在传输过程中保持高音质至关重要。载波间声音接收允许在没有干扰的情况下接收来自不同载波的声音信号，确保每个信号都能被接收器清晰地处理和理解。载波间声音接收的重要性可以在各种应用中看到，例如广播、电视甚至互联网通信。例如，在广播中，多个电台可能在重叠的频率上运行。如果没有有效的载波间声音接收，听众将会体验到模糊的音频，使他们难以享受自己喜欢的节目。通过采用利用载波间声音接收的先进技术，广播公司可以清晰而明确地传递多个音频流，从而增强听众的体验。此外，数字通信的兴起进一步强调了有效的载波间声音接收的必要性。在数字系统中，数据通常被压缩并以数据包的形式传输。这些数据包可以包含各种类型的信息，包括音频、视频和文本。如果系统未能有效处理载波间声音接收，结果可能是质量损失甚至数据丢失。因此，工程师和开发人员在设计通信协议时必须优先考虑这一方面，以确保用户接收到清晰且不断的声音。载波间声音接收在移动通信中也发挥着至关重要的作用。随着智能手机的普及，对通话过程中高音质音频的需求显著增加。移动网络依赖于载波间声音接收来管理多个语音和数据信号之间复杂的相互作用。这项技术有助于防止串音，并确保无论网络上有多少用户同时使用，通话仍然保持清晰。总之，载波间声音接收是电信领域中的一个基本概念。它使得在没有干扰的情况下同时传输和接收多个音频信号成为可能，从而确保清晰度和质量。随着技术的不断发展，载波间声音接收的重要性只会增加，这使其成为工程师和开发人员努力改善通信系统的焦点。理解这个概念对于任何参与音频工程、电信或数字通信领域的人来说都是至关重要的，因为它是我们每天体验声音质量的基础。没有有效的载波间声音接收，我们通过各种媒体进行交流的能力将受到严重影响。