transmission condition

简明释义

传输条件

英英释义

The state or circumstances under which a signal, data, or information is transmitted from one point to another.

信号、数据或信息从一个点传输到另一个点时的状态或情况。

Factors that affect the quality and reliability of transmission, including environmental conditions, equipment performance, and medium characteristics.

影响传输质量和可靠性的因素,包括环境条件、设备性能和介质特性。

例句

1.The weather can significantly affect the transmission condition of radio waves.

天气会显著影响无线电波的传输条件

2.The software update improved the transmission condition of data between devices.

软件更新改善了设备之间的数据传输条件

3.In telecommunications, understanding the transmission condition is crucial for maintaining signal quality.

在电信领域,了解传输条件对保持信号质量至关重要。

4.Before starting the experiment, we need to assess the transmission condition of the material.

在开始实验之前,我们需要评估材料的传输条件

5.The technician checked the transmission condition to ensure optimal performance of the vehicle.

技术人员检查了传输状态以确保车辆的最佳性能。

作文

In the realm of communication technology, understanding the concept of transmission condition is crucial for ensuring effective data transfer. The term transmission condition refers to the various factors that influence how information is sent from one point to another through different mediums, such as cables, airwaves, or fiber optics. These conditions can include signal strength, interference, bandwidth, and environmental factors, all of which play a significant role in determining the quality and reliability of the transmitted data.For instance, when we talk about wireless communication, the transmission condition can be affected by physical obstacles like buildings or trees, which may obstruct the signal path. Additionally, the presence of other electronic devices can introduce interference, leading to a degradation in signal quality. Understanding these variables is essential for engineers and technicians who design and maintain communication systems, as they need to optimize the transmission condition to achieve the best possible performance.Moreover, the transmission condition is not static; it can change over time and under different circumstances. For example, during peak usage hours, the bandwidth may become congested, affecting the speed and efficiency of data transmission. Therefore, monitoring and adjusting the transmission condition is vital for maintaining a high standard of service in telecommunication networks.In addition to technical considerations, the transmission condition also has implications for users. When individuals experience slow internet speeds or dropped calls, it is often a result of poor transmission condition. This can lead to frustration and dissatisfaction, highlighting the importance of reliable communication infrastructure. Service providers must invest in technology and resources to improve transmission condition, ensuring that customers receive consistent and high-quality service.Furthermore, advancements in technology have allowed for better management of transmission condition. Modern systems utilize sophisticated algorithms and machine learning to predict and adapt to changing conditions. By analyzing data in real-time, these systems can make adjustments to enhance the transmission condition, thereby improving overall performance. This is particularly important in critical applications such as emergency services and remote medical consultations, where reliable communication can be a matter of life and death.In conclusion, the concept of transmission condition is integral to the field of communication technology. It encompasses a range of factors that affect how data is transmitted and received. A thorough understanding of these conditions enables engineers to design better systems, helps service providers deliver quality experiences to their customers, and ensures that users can rely on stable and efficient communication channels. As technology continues to evolve, so too will our approaches to managing transmission condition, paving the way for even more innovative solutions in the future.

在通信技术领域,理解传输条件的概念对确保有效的数据传输至关重要。术语传输条件指的是影响信息从一个点通过不同媒介(例如电缆、无线电波或光纤)发送到另一个点的各种因素。这些条件可以包括信号强度、干扰、带宽和环境因素,所有这些在决定传输数据的质量和可靠性方面都发挥着重要作用。例如,当我们谈论无线通信时,传输条件可能会受到建筑物或树木等物理障碍的影响,这可能会阻碍信号路径。此外,其他电子设备的存在可能会引入干扰,导致信号质量下降。理解这些变量对设计和维护通信系统的工程师和技术人员至关重要,因为他们需要优化传输条件以实现最佳性能。此外,传输条件并不是静态的;它可以随着时间和不同情况而变化。例如,在高峰使用时段,带宽可能会变得拥挤,影响数据传输的速度和效率。因此,监控和调整传输条件对于维持电信网络的高标准服务至关重要。除了技术考虑之外,传输条件对用户也有影响。当个人经历缓慢的互联网速度或通话中断时,这通常是由于糟糕的传输条件造成的。这可能导致沮丧和不满,突显出可靠通信基础设施的重要性。服务提供商必须投资于技术和资源,以改善传输条件,确保客户获得一致和高质量的服务。此外,技术的进步使得更好地管理传输条件成为可能。现代系统利用复杂的算法和机器学习来预测和适应变化的条件。通过实时分析数据,这些系统可以进行调整,以增强传输条件,从而提高整体性能。这在紧急服务和远程医疗咨询等关键应用中尤为重要,因为可靠的通信可能是生死攸关的问题。总之,传输条件的概念在通信技术领域中至关重要。它涵盖了一系列影响数据传输和接收的因素。深入理解这些条件使工程师能够设计更好的系统,帮助服务提供商为客户提供优质体验,并确保用户能够依赖稳定和高效的通信渠道。随着技术的不断发展,我们对管理传输条件的方法也将不断演进,为未来更具创新性的解决方案铺平道路。