transmission level
简明释义
传输电平
英英释义
例句
1.During the test, we measured the transmission level to ensure optimal performance.
在测试期间,我们测量了传输水平以确保最佳性能。
2.A low transmission level can lead to data loss in communication systems.
低传输水平可能导致通信系统中的数据丢失。
3.Engineers often monitor the transmission level to diagnose network issues.
工程师经常监控传输水平以诊断网络问题。
4.The technician adjusted the transmission level to improve signal clarity.
技术人员调整了传输水平以改善信号清晰度。
5.Adjusting the transmission level can enhance the quality of the audio signal.
调整传输水平可以提高音频信号的质量。
作文
In today's interconnected world, the concept of transmission level (传输级别) plays a crucial role in various fields, particularly in telecommunications and data networking. The transmission level refers to the stage or quality at which data is transmitted from one point to another. It encompasses various aspects such as signal strength, bandwidth, and the overall efficiency of the transmission medium. Understanding the transmission level is essential for optimizing network performance and ensuring reliable communication.Telecommunications systems rely on different transmission levels to facilitate effective communication. For instance, in mobile networks, the transmission level can significantly impact call quality and data speeds. Higher transmission levels usually indicate better signal quality, leading to clearer calls and faster internet access. Conversely, low transmission levels can result in dropped calls and slow data rates, which frustrate users and hinder productivity.Moreover, the transmission level is not only important for individual users but also for businesses that depend on reliable communication systems. Companies often invest in advanced technologies to improve their transmission levels, ensuring that their operations run smoothly. For example, a business that relies on video conferencing must have a high transmission level to avoid lag and maintain clear audio and visual quality during meetings. Any disruption in the transmission level can lead to miscommunication and lost opportunities.In addition to telecommunications, the transmission level is also relevant in the context of data networking. In computer networks, data packets are transmitted across various devices and infrastructure. The transmission level determines how efficiently these packets travel through the network. Factors like latency, packet loss, and throughput all contribute to the overall transmission level. Network administrators constantly monitor these parameters to ensure optimal performance and address any issues that may arise.Furthermore, advancements in technology continue to influence the transmission level. With the rollout of 5G networks, for example, the transmission level has reached new heights, offering unprecedented speeds and lower latency. This evolution opens up new possibilities for applications such as virtual reality, autonomous vehicles, and the Internet of Things (IoT), where high transmission levels are critical for real-time data processing and communication.In conclusion, understanding the concept of transmission level (传输级别) is vital in the realms of telecommunications and data networking. It affects not only individual users but also businesses and technological advancements. As we continue to rely more on digital communication, maintaining optimal transmission levels will be essential for ensuring seamless connectivity and enhancing overall user experience. By investing in technologies that improve transmission levels, we can pave the way for a more connected and efficient future.
在当今互联的世界中,传输级别(transmission level)的概念在各个领域,尤其是电信和数据网络中,发挥着至关重要的作用。传输级别指的是数据从一个点传输到另一个点的阶段或质量。它涵盖了信号强度、带宽以及传输介质的整体效率等多个方面。理解传输级别对于优化网络性能和确保可靠通信至关重要。电信系统依赖不同的传输级别来促进有效的通信。例如,在移动网络中,传输级别可以显著影响通话质量和数据速度。更高的传输级别通常意味着更好的信号质量,从而导致更清晰的通话和更快的互联网访问。相反,低传输级别可能导致通话中断和数据速度缓慢,这让用户感到沮丧,妨碍生产力。此外,传输级别不仅对个人用户重要,也对依赖可靠通信系统的企业至关重要。公司通常会投资于先进技术以提高其传输级别,确保其运营顺利进行。例如,依赖视频会议的企业必须具有高传输级别,以避免延迟并在会议期间保持清晰的音频和视觉质量。任何传输级别的中断都可能导致误沟通和失去机会。除了电信,传输级别在数据网络领域同样相关。在计算机网络中,数据包通过各种设备和基础设施进行传输。传输级别决定了这些数据包在网络中旅行的效率。延迟、数据包丢失和吞吐量等因素都会影响整体的传输级别。网络管理员不断监控这些参数,以确保最佳性能并解决可能出现的任何问题。此外,技术进步持续影响着传输级别。例如,随着5G网络的推出,传输级别达到了新的高度,提供前所未有的速度和更低的延迟。这一演变为虚拟现实、自动驾驶汽车和物联网(IoT)等应用开辟了新的可能性,其中高传输级别对实时数据处理和通信至关重要。总之,理解传输级别(transmission level)这一概念在电信和数据网络领域至关重要。它不仅影响个人用户,还影响企业和技术进步。随着我们越来越依赖数字通信,保持最佳的传输级别将对确保无缝连接和提升整体用户体验至关重要。通过投资于改善传输级别的技术,我们可以为一个更加互联和高效的未来铺平道路。
