grade of transmission

简明释义

传输等级

英英释义

例句

1.To improve signal quality, we need to analyze the grade of transmission 传输等级 in this area.

为了改善信号质量，我们需要分析该区域的grade of transmission 传输等级。

2.The grade of transmission 传输等级 determines how much data can be sent over a given medium.

grade of transmission 传输等级 决定了在特定介质上可以发送多少数据。

3.In telecommunications, the grade of transmission 传输等级 is crucial for maintaining call quality.

在电信中，grade of transmission 传输等级 对保持通话质量至关重要。

4.We upgraded our equipment to support a higher grade of transmission 传输等级 for better performance.

我们升级了设备，以支持更高的grade of transmission 传输等级，以获得更好的性能。

5.The engineer explained that the grade of transmission 传输等级 affects the overall efficiency of the network.

工程师解释说，grade of transmission 传输等级 影响网络的整体效率。

作文

In the field of telecommunications, the concept of grade of transmission is crucial for ensuring the quality and reliability of communication systems. The grade of transmission refers to the measure of the performance of a communication channel in terms of its ability to transmit signals with minimal distortion and loss. This metric is essential for engineers and technicians who design and maintain telecommunication networks, as it directly impacts the user experience and the effectiveness of data transfer.When evaluating the grade of transmission, several factors come into play. These include signal-to-noise ratio (SNR), bandwidth, and the presence of interference. A high grade of transmission indicates that the communication system can deliver clear and accurate signals, while a low grade suggests that users may experience dropped calls, poor audio quality, or slow data speeds.One of the primary goals in telecommunications is to achieve the highest possible grade of transmission. This often involves using advanced technologies and techniques to enhance signal quality. For instance, engineers may implement error correction algorithms, utilize frequency modulation, or deploy multiple input and multiple output (MIMO) systems to improve the overall performance of the network.Moreover, the grade of transmission can vary greatly depending on the type of medium used for communication. For example, fiber optic cables typically offer a superior grade of transmission compared to traditional copper wires due to their lower attenuation and higher bandwidth capabilities. As a result, many telecommunications companies are increasingly investing in fiber optic technology to meet the growing demand for high-speed internet and reliable communication services.In addition to technical considerations, the grade of transmission also has implications for regulatory compliance and service level agreements (SLAs). Telecommunications providers are often required to meet specific standards for transmission quality set by governmental bodies or industry organizations. Failure to maintain an acceptable grade of transmission could result in penalties, loss of customers, and damage to the provider's reputation.Furthermore, the importance of the grade of transmission extends beyond telecommunications. In broadcasting, for instance, the grade of transmission affects the clarity and reach of television and radio signals. A high-quality transmission ensures that viewers and listeners receive content without interruptions or degradation in quality.In conclusion, the grade of transmission is a vital aspect of modern communication systems that influences both technical performance and customer satisfaction. As technology continues to evolve, maintaining a high grade of transmission will remain a priority for telecommunications providers and other industries reliant on effective communication. By understanding and improving this metric, we can ensure that our communication networks are robust, efficient, and capable of meeting the demands of an increasingly connected world.

在电信领域，传输等级的概念对于确保通信系统的质量和可靠性至关重要。传输等级指的是通信信道在以最小失真和损耗传输信号的能力方面的性能衡量。这一指标对设计和维护电信网络的工程师和技术人员至关重要，因为它直接影响用户体验和数据传输的有效性。在评估传输等级时，有几个因素需要考虑。这些因素包括信噪比（SNR）、带宽和干扰的存在。高传输等级意味着通信系统能够清晰准确地传递信号，而低等级则表明用户可能会经历通话中断、音质差或数据速度慢等问题。电信的主要目标之一是实现尽可能高的传输等级。这通常涉及使用先进的技术和方法来提高信号质量。例如，工程师可能会实施错误纠正算法、利用频率调制或部署多输入多输出（MIMO）系统，以改善网络的整体性能。此外，传输等级可能因用于通信的介质类型而大相径庭。例如，光纤电缆通常提供优于传统铜线的传输等级，因为它们具有更低的衰减和更高的带宽能力。因此，许多电信公司越来越多地投资于光纤技术，以满足对高速互联网和可靠通信服务日益增长的需求。除了技术考虑外，传输等级还与合规性和服务水平协议（SLA）有关。电信提供商通常需要满足政府机构或行业组织设定的特定传输质量标准。未能保持可接受的传输等级可能导致罚款、客户流失和提供商声誉受损。此外，传输等级的重要性超出了电信。在广播中，例如，传输等级影响电视和广播信号的清晰度和覆盖范围。高质量的传输确保观众和听众在没有中断或质量下降的情况下接收内容。总之，传输等级是现代通信系统中的一个重要方面，影响着技术性能和客户满意度。随着技术的不断发展，保持高传输等级将继续成为电信提供商和其他依赖有效通信的行业的优先事项。通过理解和改善这一指标，我们可以确保我们的通信网络强大、高效，并能够满足日益互联的世界的需求。