suppression of interference

简明释义

干扰抑制

英英释义

例句

1.Engineers are developing methods for the suppression of interference in radar systems.

工程师们正在开发雷达系统中抑制干扰的方法。

2.In the lab, we focus on the suppression of interference to improve the accuracy of our measurements.

在实验室中，我们专注于抑制干扰以提高测量的准确性。

3.The suppression of interference is crucial for ensuring clear audio in conference calls.

为了确保会议电话中的清晰音频，抑制干扰至关重要。

4.The suppression of interference can significantly enhance the performance of MRI machines.

对MRI机器来说，抑制干扰可以显著提升性能。

5.The new technology allows for better suppression of interference in wireless communications.

新技术可以更好地抑制干扰无线通信中的干扰。

作文

In the realm of communication and technology, the term suppression of interference plays a pivotal role. This concept refers to the techniques and methods employed to minimize or eliminate unwanted signals that can disrupt the transmission of desired information. In today’s fast-paced world, where information is exchanged at lightning speed, ensuring clear communication is more crucial than ever. The suppression of interference is essential in various fields, including telecommunications, broadcasting, and even in everyday devices like smartphones and radios.To understand the importance of suppression of interference, we must first recognize the nature of interference itself. Interference can occur in many forms, such as electromagnetic interference (EMI), radio frequency interference (RFI), and even environmental noise. These disturbances can degrade the quality of signals, leading to poor audio or video quality, lost data, and ultimately, a breakdown in communication. For instance, during a phone call, if there is significant background noise or competing signals, the conversation may become garbled or unintelligible. Therefore, implementing effective suppression of interference techniques is vital to maintain the integrity of communication.One common method for achieving suppression of interference is through the use of filters. Filters are designed to allow only specific frequencies to pass while blocking others. For example, in radio broadcasting, a bandpass filter can be used to isolate the desired radio frequency while eliminating other frequencies that may cause interference. This ensures that listeners receive a clear signal without the distraction of unwanted noise. Similarly, in digital communications, error correction algorithms can be employed to detect and correct errors caused by interference, enhancing the overall reliability of data transmission.Another approach to suppression of interference involves the strategic placement of antennas and transmitters. By carefully positioning these devices, engineers can reduce the likelihood of interference from other sources. Directional antennas, for example, can focus their reception and transmission capabilities in specific directions, minimizing the impact of stray signals from other directions. This technique is particularly useful in densely populated areas where multiple signals may compete for attention.Moreover, advancements in technology have led to the development of sophisticated software solutions that can dynamically adjust to varying levels of interference. These systems can analyze the surrounding environment in real-time and make necessary adjustments to optimize signal quality. Such innovations are crucial in maintaining seamless communication, especially in critical applications such as emergency services and military operations, where clarity and reliability are paramount.In conclusion, the suppression of interference is an indispensable aspect of modern communication systems. As we continue to rely on technology for our daily interactions, understanding and implementing effective methods to reduce interference will be key to ensuring that our communications remain clear and reliable. Whether through filtering techniques, strategic device placement, or advanced software solutions, the goal remains the same: to provide a seamless communication experience free from the disruptions caused by interference. As technology evolves, so too will the strategies for suppression of interference, paving the way for even clearer and more efficient communication in the future.

在通信和技术领域，术语干扰抑制起着关键作用。这个概念指的是为了最小化或消除可能干扰所需信息传输的信号而采用的技术和方法。在当今这个信息以闪电般速度交换的快节奏世界中，确保清晰的沟通比以往任何时候都更加重要。干扰抑制在电信、广播甚至日常设备如智能手机和收音机等多个领域都是必不可少的。要理解干扰抑制的重要性，我们必须首先认识到干扰本身的性质。干扰可以以多种形式发生，例如电磁干扰（EMI）、射频干扰（RFI），甚至环境噪声。这些干扰会降低信号的质量，导致音频或视频质量差、数据丢失，最终导致通信中断。例如，在电话通话中，如果有显著的背景噪音或竞争信号，谈话可能会变得模糊不清或无法理解。因此，实施有效的干扰抑制技术对于维护通信的完整性至关重要。实现干扰抑制的一种常见方法是使用滤波器。滤波器旨在允许特定频率通过，同时阻止其他频率。例如，在广播中，可以使用带通滤波器来隔离所需的无线电频率，同时消除可能导致干扰的其他频率。这确保了听众接收到清晰的信号，而不受不必要噪声的干扰。同样，在数字通信中，可以采用错误校正算法来检测和纠正干扰引起的错误，从而增强数据传输的整体可靠性。实现干扰抑制的另一种方法涉及天线和发射器的战略性放置。通过仔细定位这些设备，工程师可以减少来自其他源的干扰的可能性。定向天线例如，可以将其接收和发射能力集中在特定方向，从而最小化来自其他方向的杂散信号的影响。这种技术在多个信号可能争夺注意力的密集人口区域尤其有用。此外，技术的进步导致开发出复杂的软件解决方案，这些解决方案可以动态调整以应对不同程度的干扰。这些系统可以实时分析周围环境，并进行必要的调整以优化信号质量。这些创新在维护无缝通信方面至关重要，尤其是在紧急服务和军事行动等关键应用中，清晰和可靠性至关重要。总之，干扰抑制是现代通信系统不可或缺的一个方面。随着我们继续依赖技术进行日常互动，理解和实施有效的方法以减少干扰将是确保我们的通信保持清晰和可靠的关键。无论是通过过滤技术、战略性设备放置还是先进的软件解决方案，目标始终是提供一个无干扰的无缝通信体验。随着技术的发展，干扰抑制的策略也将不断演变，为未来更清晰、更高效的通信铺平道路。