interference in the co-located station

简明释义

同站干扰

英英释义

例句

1.The engineers reported significant interference in the co-located station due to nearby construction activities.

工程师报告称，由于附近的施工活动，出现了显著的共址站点干扰。

2.The technician diagnosed the problem as interference in the co-located station, which affected communication.

技术人员将问题诊断为共址站点干扰，这影响了通信。

3.The recent tests showed that interference in the co-located station can lead to data loss.

最近的测试显示，共址站点干扰可能导致数据丢失。

4.To improve signal quality, we need to address the interference in the co-located station caused by other devices.

为了改善信号质量，我们需要解决由其他设备引起的共址站点干扰。

5.We implemented a new filtering system to reduce interference in the co-located station from adjacent frequencies.

我们实施了一种新的滤波系统，以减少来自相邻频率的共址站点干扰。

作文

In the modern era of technology, the importance of effective communication cannot be overstated. Various systems and devices are now interconnected, allowing for seamless data exchange and interaction. However, with this advancement comes the challenge of managing interference in the co-located station, which can significantly impact the performance of these systems. Understanding this concept is vital for engineers and technicians working in fields such as telecommunications, broadcasting, and data transmission.To begin with, let’s define what we mean by interference in the co-located station. This phrase refers to the disruption or degradation of signals that occurs when multiple systems or devices are located in close proximity to each other. For instance, in a telecommunications setting, if two radio towers are situated too near one another, their signals may overlap, causing interference that can lead to poor call quality or dropped connections. This phenomenon is not limited to radio frequencies; it can also occur in wired networks where multiple devices share the same bandwidth.The implications of interference in the co-located station are far-reaching. In broadcasting, for example, stations that operate on similar frequencies and are located close together may experience signal bleed, where one station's broadcast interferes with another's. This can result in listeners hearing garbled audio or experiencing interruptions in service. Such issues necessitate careful planning and coordination among broadcasters to ensure that their signals do not interfere with one another.Furthermore, interference in the co-located station can also pose challenges in the realm of data centers. As more businesses rely on cloud computing and data storage solutions, the need for efficient data transmission becomes increasingly critical. When multiple servers are housed in the same facility, they can generate electromagnetic interference, which can disrupt the signals being transmitted between devices. This can lead to slower data transfer rates and increased latency, ultimately affecting the user experience.To mitigate the effects of interference in the co-located station, several strategies can be employed. One common approach is frequency planning, which involves assigning different frequencies to nearby systems to minimize overlap. Engineers can also implement shielding techniques to protect sensitive equipment from external interference. Additionally, advancements in technology, such as the development of more sophisticated modulation techniques, can help enhance signal clarity and reduce the risk of interference.In conclusion, interference in the co-located station is a critical issue that must be addressed to ensure the smooth operation of interconnected systems. As technology continues to evolve and the demand for reliable communication grows, understanding and managing this interference will be essential for professionals in various fields. By employing strategic planning and leveraging technological advancements, we can work towards minimizing interference and enhancing the efficiency of our communication networks.

在现代科技时代，有效沟通的重要性不容忽视。各种系统和设备现在相互连接，使得数据交换和互动变得无缝。然而，随着这一进步而来的挑战是管理共址站点的干扰，这可能会显著影响这些系统的性能。理解这个概念对从事电信、广播和数据传输等领域的工程师和技术人员至关重要。首先，让我们定义一下共址站点的干扰的含义。这个短语指的是当多个系统或设备位于彼此近旁时发生的信号中断或降级。例如，在电信环境中，如果两个无线电塔过于接近，它们的信号可能会重叠，导致干扰，从而造成通话质量差或掉线。这种现象不仅限于无线电频率；在多个设备共享同一带宽的有线网络中也可能发生。共址站点的干扰的影响是深远的。例如，在广播中，操作在相似频率并且位置接近的电台可能会经历信号干扰，一个电台的广播干扰另一个电台。这可能导致听众听到模糊的音频或服务中断。这类问题需要广播公司之间进行仔细的规划和协调，以确保它们的信号不会相互干扰。此外，共址站点的干扰在数据中心领域也可能带来挑战。随着越来越多的企业依赖云计算和数据存储解决方案，高效的数据传输需求变得愈发关键。当多个服务器被安置在同一设施中时，它们可能会产生电磁干扰，从而干扰设备之间传输的信号。这可能导致数据传输速率减慢和延迟增加，最终影响用户体验。为了减轻共址站点的干扰的影响，可以采用几种策略。一种常见的方法是频率规划，即为附近的系统分配不同的频率以最小化重叠。工程师还可以实施屏蔽技术，以保护敏感设备免受外部干扰。此外，技术的进步，例如更复杂的调制技术的发展，可以帮助增强信号清晰度并减少干扰风险。总之，共址站点的干扰是一个关键问题，必须加以解决，以确保互联系统的顺利运行。随着技术的不断发展和对可靠通信的需求日益增长，理解和管理这种干扰将对各个领域的专业人士至关重要。通过采用战略规划和利用技术进步，我们可以努力减少干扰，提高通信网络的效率。