combination carrier loss

简明释义

兼用船灭失

英英释义

例句

1.The recent study highlighted the impact of combination carrier loss on overall system efficiency.

最近的研究强调了组合载体损失对整体系统效率的影响。

2.The team presented their findings on combination carrier loss at the conference.

团队在会议上展示了关于组合载体损失的研究结果。

3.Understanding combination carrier loss is crucial for optimizing communication networks.

理解组合载体损失对于优化通信网络至关重要。

4.Engineers are working to minimize combination carrier loss in the new design.

工程师们正在努力减少新设计中的组合载体损失。

5.To improve performance, we need to address the issue of combination carrier loss in our systems.

为了提高性能，我们需要解决系统中组合载体损失的问题。

作文

In the world of telecommunications and data transmission, the concept of combination carrier loss plays a crucial role in understanding how signals are transmitted and received. This term refers to the loss of signal strength that occurs when multiple carrier signals are combined for transmission over a single medium. The phenomenon is particularly important in systems where efficient use of bandwidth is necessary, such as in mobile networks and broadband internet services.To comprehend combination carrier loss, one must first grasp the basics of signal transmission. In telecommunications, a carrier signal is a waveform that is modulated with an information-bearing signal for the purpose of conveying information. When multiple carrier signals are combined, they can interfere with each other, leading to a degradation of the overall signal quality. This interference can result from various factors, including phase shifts, frequency mismatches, and amplitude variations.The impact of combination carrier loss can be significant in practical applications. For instance, in a mobile communication system, when multiple users share the same frequency band, their signals may overlap, causing a reduction in the clarity and strength of the received signals. This is particularly problematic in densely populated areas where many users are trying to access the network simultaneously.Moreover, combination carrier loss can also affect the efficiency of data transmission. In scenarios where high data rates are required, such as streaming video or online gaming, any loss in signal strength can lead to buffering, lag, or even disconnection. Therefore, understanding and mitigating this loss is essential for service providers who aim to deliver high-quality experiences to their customers.One of the ways to address combination carrier loss is through advanced modulation techniques. By employing methods such as Orthogonal Frequency Division Multiplexing (OFDM), which divides a signal into multiple smaller sub-signals that are transmitted simultaneously at different frequencies, it is possible to reduce the impact of interference. This technique allows for more efficient use of available bandwidth and minimizes the losses associated with combining multiple carriers.In addition to modulation techniques, network design and architecture can also play a significant role in managing combination carrier loss. By strategically placing base stations and optimizing their coverage areas, telecommunications companies can reduce the likelihood of overlapping signals. Furthermore, implementing robust error correction algorithms can help recover lost data, ensuring that users receive a reliable service even in the presence of signal degradation.In conclusion, combination carrier loss is a critical factor in the field of telecommunications, influencing both the quality and efficiency of signal transmission. As technology continues to evolve, understanding this concept becomes increasingly important for engineers and network designers. By employing advanced techniques and optimizing network infrastructure, it is possible to mitigate the effects of this loss, ultimately leading to improved communication experiences for users around the globe. As we move towards a more connected future, addressing challenges like combination carrier loss will be essential for the continued growth and development of telecommunications systems.

在电信和数据传输的世界中，组合载波损耗的概念在理解信号的传输和接收方面起着至关重要的作用。这个术语指的是当多个载波信号被组合以通过单一媒介进行传输时，发生的信号强度损失。这一现象在带宽高效利用至关重要的系统中尤为重要，例如移动网络和宽带互联网服务。要理解组合载波损耗，首先必须掌握信号传输的基本知识。在电信中，载波信号是一个波形，它通过调制承载信息的信号来传递信息。当多个载波信号被组合时，它们可能会互相干扰，导致整体信号质量下降。这种干扰可能由多种因素引起，包括相位偏移、频率不匹配和幅度变化。组合载波损耗的影响在实际应用中可能是显著的。例如，在移动通信系统中，当多个用户共享同一频段时，他们的信号可能会重叠，从而降低接收信号的清晰度和强度。这在用户同时试图访问网络的密集区域尤其成问题。此外，组合载波损耗还可能影响数据传输的效率。在需要高数据速率的场景中，例如视频流或在线游戏，任何信号强度的损失都可能导致缓冲、延迟甚至断开连接。因此，理解和减轻这种损失对于希望向客户提供高质量体验的服务提供商至关重要。应对组合载波损耗的一种方法是通过先进的调制技术。通过采用正交频分复用（OFDM）等方法，将信号划分为多个较小的子信号，同时在不同频率下传输，可以减少干扰的影响。这种技术允许更有效地利用可用带宽，并最小化与组合多个载波相关的损失。除了调制技术，网络设计和架构在管理组合载波损耗方面也可以发挥重要作用。通过战略性地放置基站并优化其覆盖区域，电信公司可以减少信号重叠的可能性。此外，实施强大的错误纠正算法可以帮助恢复丢失的数据，确保用户即使在信号衰减的情况下也能获得可靠的服务。总之，组合载波损耗是电信领域中的一个关键因素，影响信号传输的质量和效率。随着技术的不断发展，理解这一概念对于工程师和网络设计师变得越来越重要。通过采用先进的技术和优化网络基础设施，可以减轻这种损失的影响，最终改善全球用户的通信体验。随着我们迈向更加互联的未来，解决像组合载波损耗这样的挑战将对电信系统的持续增长和发展至关重要。