wave clutter
简明释义
海浪杂乱回波
英英释义
例句
1.To improve detection accuracy, we need to minimize wave clutter (波浪杂波) in our radar systems.
为了提高探测准确性,我们需要尽量减少雷达系统中的wave clutter(波浪杂波)。
2.Engineers are working on algorithms to filter out wave clutter (波浪杂波) from sonar readings.
工程师们正在研究算法,以过滤声呐读数中的wave clutter(波浪杂波)。
3.The radar system struggled to identify the target due to the significant wave clutter (波浪杂波) in the area.
由于该区域的显著wave clutter(波浪杂波),雷达系统难以识别目标。
4.In maritime navigation, wave clutter (波浪杂波) can lead to false alarms and misinterpretations of data.
在海事导航中,wave clutter(波浪杂波)可能导致误报和数据误解。
5.The fishing vessel's sonar was overwhelmed by wave clutter (波浪杂波), making it hard to locate schools of fish.
渔船的声呐被wave clutter(波浪杂波)淹没,使得很难找到鱼群。
作文
In the realm of signal processing and telecommunications, the term wave clutter refers to the unwanted signals that interfere with the transmission of legitimate data. This phenomenon can occur in various forms, such as background noise, reflections from objects, or overlapping frequencies that distort the original signal. Understanding wave clutter is crucial for engineers and researchers who strive to improve communication systems and enhance the clarity of transmitted information.When we consider the impact of wave clutter, it is essential to recognize its prevalence in everyday life. For instance, when using a mobile phone in a crowded area, one might experience interruptions or degraded call quality due to the multitude of signals competing for bandwidth. This scenario exemplifies how wave clutter can create challenges in maintaining clear communication. The ability to filter out these unwanted signals becomes paramount in ensuring effective interaction between devices and users.Moreover, wave clutter is not limited to telecommunications; it also plays a significant role in radar technology. Radars are designed to detect objects and measure distances, but they often face interference from wave clutter, which can lead to false readings or missed detections. For example, in maritime navigation, a ship's radar may struggle to differentiate between actual vessels and the surrounding sea waves, which contribute to wave clutter. To mitigate this issue, radar systems employ advanced algorithms and signal processing techniques to filter out the clutter, allowing for more accurate tracking of targets.The implications of wave clutter extend beyond technical challenges; they also affect safety and efficiency in various industries. In aviation, for instance, pilots rely heavily on radar systems to navigate safely through congested airspace. If wave clutter obscures vital information, it could result in catastrophic consequences. Therefore, continuous research and development efforts aim to enhance the resilience of radar systems against wave clutter, ultimately improving safety protocols in aviation.In conclusion, wave clutter is a multifaceted issue that significantly impacts communication technologies and radar systems. By understanding the nature of wave clutter and developing innovative solutions to minimize its effects, we can pave the way for clearer communication and safer navigation. As technology continues to evolve, addressing wave clutter will remain a critical focus for engineers and researchers alike, ensuring that our devices can operate efficiently in an increasingly complex signal environment.
在信号处理和电信领域,术语wave clutter指的是干扰合法数据传输的多余信号。这种现象可以表现为各种形式,例如背景噪声、物体反射或重叠频率,这些都扭曲了原始信号。理解wave clutter对工程师和研究人员至关重要,他们努力改善通信系统并增强传输信息的清晰度。当我们考虑wave clutter的影响时,必须认识到它在日常生活中的普遍性。例如,在拥挤的地方使用手机时,由于众多信号竞争带宽,可能会体验到中断或通话质量下降的情况。这一场景说明了wave clutter如何在保持清晰通信方面带来挑战。过滤掉这些不必要的信号的能力在确保设备与用户之间有效互动中变得至关重要。此外,wave clutter不仅限于电信,它在雷达技术中也发挥着重要作用。雷达旨在检测物体并测量距离,但它们经常受到wave clutter的干扰,这可能导致错误读数或漏检。例如,在海事导航中,船舶的雷达可能难以区分实际船只和周围海浪,这些浪潮会造成wave clutter。为了减轻这个问题,雷达系统采用先进的算法和信号处理技术来过滤杂波,从而允许更准确地跟踪目标。wave clutter的影响超出了技术挑战,它还影响着各行业的安全性和效率。在航空领域,例如,飞行员在拥挤的空域中安全导航时严重依赖雷达系统。如果wave clutter遮蔽了重要信息,可能会导致灾难性的后果。因此,持续的研究和开发工作旨在增强雷达系统抵御wave clutter的能力,最终改善航空安全协议。总之,wave clutter是一个多方面的问题,对通信技术和雷达系统产生了显著影响。通过理解wave clutter的性质并开发创新解决方案以最小化其影响,我们可以为更清晰的通信和更安全的导航铺平道路。随着技术的不断发展,解决wave clutter将继续成为工程师和研究人员的重要关注点,确保我们的设备能够在日益复杂的信号环境中高效运行。
