anti-interference performance

简明释义

抗干扰性

英英释义

例句

1.The new wireless communication system boasts enhanced anti-interference performance, ensuring clearer signals in crowded environments.

新的无线通信系统拥有增强的抗干扰性能，确保在拥挤环境中信号更清晰。

2.This smartphone is specifically designed for anti-interference performance to maintain connectivity in urban areas.

这款智能手机专为在城市地区保持连接而设计，具备抗干扰性能。

3.Engineers tested the anti-interference performance of the device under various electromagnetic conditions.

工程师在各种电磁条件下测试了设备的抗干扰性能。

4.The anti-interference performance of this sensor allows it to function effectively in industrial settings with high levels of noise.

该传感器的抗干扰性能使其能够在噪声水平较高的工业环境中有效工作。

5.To improve the anti-interference performance, we integrated advanced filtering technology into the design.

为了提高抗干扰性能，我们在设计中集成了先进的过滤技术。

作文

In today's rapidly evolving technological landscape, the importance of anti-interference performance cannot be overstated. As we increasingly rely on various electronic devices for communication, navigation, and data processing, the ability of these devices to function effectively in the presence of interference has become a critical factor in their design and application. 抗干扰性能 refers to the capability of a system or device to operate correctly despite the presence of external disturbances or noise that may affect its performance. This essay will explore the significance of anti-interference performance in modern technology, its implications for various industries, and the ongoing efforts to enhance this essential feature.One of the primary areas where anti-interference performance plays a vital role is in telecommunications. With the proliferation of mobile phones, Wi-Fi networks, and satellite communications, the potential for interference has increased significantly. Factors such as electromagnetic interference from other devices, physical obstructions, and atmospheric conditions can all impact signal quality. Therefore, engineers focus on improving the anti-interference performance of communication systems to ensure clear and reliable connections. For instance, advanced coding techniques and modulation schemes are employed to enhance the robustness of signals against interference, thereby ensuring that users can maintain uninterrupted service.Another industry where anti-interference performance is crucial is in the field of automotive technology. Modern vehicles are equipped with numerous electronic systems, including GPS navigation, collision avoidance sensors, and infotainment systems. These systems must operate seamlessly even in environments with high levels of electromagnetic interference, such as urban areas with dense traffic and numerous electronic devices. Manufacturers invest heavily in research and development to improve the anti-interference performance of these systems, ensuring that they can function reliably regardless of external conditions. This not only enhances the safety and convenience of driving but also contributes to the overall efficiency of transportation systems.The aerospace industry also relies heavily on anti-interference performance. Aircraft systems must be able to withstand various forms of interference, including radio frequency interference and environmental noise. The stakes are particularly high in this sector, as any failure in communication or navigation systems can have catastrophic consequences. To mitigate these risks, aerospace engineers implement rigorous testing and validation processes to ensure that all electronic systems meet stringent anti-interference performance standards. This commitment to reliability is essential for maintaining safety in air travel and instilling confidence in passengers.Furthermore, the rise of the Internet of Things (IoT) has amplified the need for robust anti-interference performance. As more devices become interconnected, the potential for interference increases, leading to challenges in data transmission and device functionality. Ensuring that IoT devices can communicate effectively without disruption is paramount for applications ranging from smart homes to industrial automation. Developers are continuously exploring innovative solutions to enhance the anti-interference performance of IoT systems, such as using advanced algorithms and machine learning techniques to predict and mitigate interference.In conclusion, the significance of anti-interference performance in contemporary technology is undeniable. Its impact spans multiple industries, including telecommunications, automotive, aerospace, and the burgeoning field of IoT. As technology continues to advance, the demand for enhanced anti-interference performance will only grow, prompting ongoing research and innovation. By prioritizing this critical aspect of design and engineering, we can ensure that our electronic systems remain reliable and effective in an increasingly complex and noisy world.

在当今快速发展的技术环境中，抗干扰性能的重要性不容忽视。随着我们越来越依赖各种电子设备进行通信、导航和数据处理，这些设备在干扰存在的情况下有效运行的能力已成为其设计和应用中的关键因素。抗干扰性能是指系统或设备在外部干扰或噪声影响其性能的情况下，能够正确操作的能力。本文将探讨抗干扰性能在现代技术中的重要性、对各个行业的影响，以及提升这一基本特性的持续努力。抗干扰性能发挥重要作用的主要领域之一是电信。随着手机、Wi-Fi网络和卫星通信的普及，干扰的潜在可能性显著增加。其他设备产生的电磁干扰、物理障碍和气象条件等因素都可能影响信号质量。因此，工程师们专注于提高通信系统的抗干扰性能，以确保清晰可靠的连接。例如，采用先进的编码技术和调制方案来增强信号的抗干扰能力，从而确保用户能够保持不间断的服务。另一个抗干扰性能至关重要的行业是汽车技术。现代车辆配备了众多电子系统，包括GPS导航、碰撞避免传感器和信息娱乐系统。这些系统必须即使在高电磁干扰的环境中也能无缝运行，例如交通密集的城市地区和众多电子设备的地方。制造商在研发上投入大量资金，以提高这些系统的抗干扰性能，确保它们无论在外部条件下都能可靠地运行。这不仅增强了驾驶的安全性和便利性，还有助于整体交通系统的效率。航空航天行业也高度依赖于抗干扰性能。飞机系统必须能够抵御各种形式的干扰，包括射频干扰和环境噪声。这个行业的风险尤其高，因为通信或导航系统的任何故障都可能导致灾难性的后果。为了降低这些风险，航空航天工程师实施严格的测试和验证流程，以确保所有电子系统符合严格的抗干扰性能标准。这种对可靠性的承诺对于维护航空旅行的安全性和增强乘客的信心至关重要。此外，物联网（IoT）的兴起也加大了对强大抗干扰性能的需求。随着越来越多的设备互联，干扰的潜在可能性增加，导致数据传输和设备功能面临挑战。确保物联网设备能够在没有干扰的情况下有效通信对于从智能家居到工业自动化的应用至关重要。开发人员不断探索创新解决方案，以增强物联网系统的抗干扰性能，例如使用先进的算法和机器学习技术来预测和减轻干扰。总之，抗干扰性能在当代技术中的重要性是不可否认的。其影响跨越多个行业，包括电信、汽车、航空航天和新兴的物联网领域。随着技术的不断进步，对增强抗干扰性能的需求只会增加，促使持续的研究和创新。通过优先考虑这一设计和工程的关键方面，我们可以确保我们的电子系统在日益复杂和嘈杂的世界中保持可靠和有效。