automatic selectivity control

简明释义

1. 自动选择性控制; 2. 自选控制;

英英释义

例句

1.In modern audio equipment, automatic selectivity control helps to enhance the listening experience by reducing interference from other devices.

在现代音频设备中，自动选择性控制通过减少来自其他设备的干扰来增强听觉体验。

2.In smart home systems, automatic selectivity control can manage which devices are active based on user preferences.

在智能家居系统中，自动选择性控制可以根据用户偏好管理哪些设备处于活动状态。

3.With automatic selectivity control, the radio can filter out unwanted frequencies, providing a clearer sound experience.

通过自动选择性控制，收音机可以过滤掉不需要的频率，从而提供更清晰的声音体验。

4.The new telecommunications system features automatic selectivity control, which ensures that users only receive signals from their designated channels.

新的电信系统具有自动选择性控制，确保用户仅接收来自指定频道的信号。

5.The automatic selectivity control feature in this software allows users to prioritize certain data streams over others.

该软件中的自动选择性控制功能允许用户优先处理某些数据流。

作文

In the modern era of technology, the concept of automatic selectivity control has become increasingly relevant in various fields, particularly in telecommunications and signal processing. This term refers to a system's ability to automatically adjust its parameters to selectively filter out unwanted signals while allowing desired signals to pass through. The importance of automatic selectivity control lies in its ability to enhance the efficiency and clarity of communication systems, which are vital for both personal and professional interactions.One of the primary applications of automatic selectivity control can be found in radio frequency (RF) systems. In these systems, numerous signals operate simultaneously across different frequencies. Without effective selectivity control, a receiver may struggle to distinguish between the desired signal and interference from other sources. This can lead to poor audio quality or even complete loss of communication. By implementing automatic selectivity control, the system can dynamically adjust its sensitivity to specific frequencies based on real-time analysis, ensuring that only the most relevant signals are processed.Moreover, automatic selectivity control plays a crucial role in digital communications. As data transmission rates increase, the risk of data corruption from noise and interference also rises. Advanced algorithms that utilize automatic selectivity control can identify patterns in the incoming data stream, allowing the system to prioritize certain packets over others. This prioritization not only improves the overall data integrity but also enhances the user experience by reducing latency and increasing throughput.The benefits of automatic selectivity control extend beyond telecommunications. In the field of automation and control systems, this technology is employed to optimize processes in industrial environments. For instance, manufacturing systems often require precise control over various parameters such as temperature, pressure, and flow rates. By integrating automatic selectivity control, these systems can automatically adjust their operations based on real-time feedback, leading to improved efficiency and reduced waste.Furthermore, the application of automatic selectivity control in machine learning and artificial intelligence is gaining traction. Algorithms that utilize this technology can learn from vast amounts of data, identifying which features are most relevant for making predictions or decisions. This adaptability allows for more accurate models and better performance in tasks ranging from image recognition to natural language processing.In conclusion, the concept of automatic selectivity control is integral to the advancement of various technological domains. Its ability to enhance signal processing, improve communication quality, and optimize industrial processes showcases its versatility and importance. As technology continues to evolve, the role of automatic selectivity control will undoubtedly expand, paving the way for more efficient and effective systems in the future. Understanding and mastering this concept will be essential for professionals in engineering, telecommunications, and data science as they navigate the complexities of modern technology.

在现代科技时代，自动选择性控制的概念在各个领域变得越来越相关，特别是在电信和信号处理领域。这个术语指的是系统能够自动调整其参数，以选择性地过滤掉不需要的信号，同时允许所需信号通过。自动选择性控制的重要性在于它能够提高通信系统的效率和清晰度，这对个人和专业互动都至关重要。自动选择性控制的一个主要应用可以在射频（RF）系统中找到。在这些系统中，众多信号同时在不同频率上运行。如果没有有效的选择性控制，接收器可能会难以区分所需信号与其他来源的干扰。这可能导致音质差或完全失去通信。通过实施自动选择性控制，系统可以根据实时分析动态调整其对特定频率的灵敏度，从而确保仅处理最相关的信号。此外，自动选择性控制在数字通信中也发挥着至关重要的作用。随着数据传输速率的增加，噪声和干扰导致数据损坏的风险也在上升。利用自动选择性控制的先进算法可以识别输入数据流中的模式，使系统能够优先处理某些数据包。这种优先级不仅提高了整体数据完整性，还通过减少延迟和增加吞吐量来改善用户体验。自动选择性控制的好处超出了电信领域。在自动化和控制系统领域，这项技术被用来优化工业环境中的过程。例如，制造系统通常需要对温度、压力和流量等各种参数进行精确控制。通过集成自动选择性控制，这些系统可以根据实时反馈自动调整其操作，从而提高效率并减少浪费。此外，自动选择性控制在机器学习和人工智能中的应用正在获得关注。利用这项技术的算法可以从大量数据中学习，识别哪些特征对于做出预测或决策最为相关。这种适应性允许更准确的模型和在图像识别到自然语言处理等任务中的更好表现。总之，自动选择性控制的概念是各种技术领域发展的重要组成部分。它增强信号处理、改善通信质量和优化工业过程的能力展示了它的多功能性和重要性。随着技术的不断发展，自动选择性控制的角色无疑将扩大，为未来更高效、更有效的系统铺平道路。理解和掌握这一概念对于工程、电信和数据科学领域的专业人士在应对现代科技的复杂性时将至关重要。