multifrequency

简明释义

[ˌmʌltɪˈfriːkwənsi][ˌmʌltiˈfriːkwənsi]

adj. 多频的,含多频的,由多种频率组成的

英英释义

Relating to or involving multiple frequencies, often used in contexts such as telecommunications, signal processing, or audio technology.

与多个频率相关或涉及多个频率,通常用于电信、信号处理或音频技术等上下文中。

单词用法

multifrequency communication

多频通信

multifrequency measurement

多频测量

multifrequency technique

多频技术

multifrequency modulation

多频调制

use multifrequency

使用多频

apply multifrequency methods

应用多频方法

implement multifrequency strategies

实施多频策略

design a multifrequency system

设计多频系统

同义词

multi-band

多频带

The multi-band antenna can receive signals from various frequencies.

多频带天线可以接收来自不同频率的信号。

broadband

宽带

Broadband connections allow for high-speed internet across multiple frequencies.

宽带连接允许在多个频率上实现高速互联网。

multi-frequency

多频率

A multi-frequency signal is essential for effective communication in complex environments.

多频率信号对于在复杂环境中有效通信至关重要。

反义词

single-frequency

单频率

The device operates on a single-frequency basis.

该设备以单频率方式运行。

monofrequency

单一频率

In contrast to multifrequency systems, monofrequency systems are simpler and easier to manage.

与多频率系统相比,单一频率系统更简单且更易于管理。

例句

1.CONCLUSION: Multifrequency segmental bioelectrical impedance analysis is reliable in measuring human body component.

结论:应用多频节段生物电阻抗分析法测量人体成分具有较高的可重复性。

2.The system includes the dual-tone multifrequency signal detection module, the musical sound processing module, the harmonical analysis module of circularity and many other demonstration modules.

系统包括话机按键双音频信号识别、圆轮廓形状误差谐波分析、数字音频效果及原理性演示实验等。

3.Retrieval of Precipitation Profiles from Multiresolution, Multifrequency Active and Passive Microwave Observations.

从多分辨、多频的主动和被动微波遥感观测反演降水廓线。

4.This article introduces structure principle and characteristic of the multifrequency vibration screen.

介绍了复频振动脱水筛的结构、原理及特点。

5.The multifrequency receiver designed with this method has the property of lower rate of processing and high calculation efficiency.

用这种方法设计的多频信号接收器具有工作速度低和运算效率高的特点。

6.Signaling took the form of a series of multifrequency (MF) tones, much like touch tone dialing between switches.

信号将一系列的方式多频(MF)音调,很像之间互动音频拨号开关。

7.The system includes the dual-tone multifrequency signal detection module, the musical sound processing module, the harmonical analysis module of circularity and many other demonstration modules.

系统包括话机按键双音频信号识别、圆轮廓形状误差谐波分析、数字音频效果及原理性演示实验等。

8.The new communication device operates on a multifrequency 多频率 system to enhance signal clarity.

新型通信设备采用多频率系统以增强信号清晰度。

9.The multifrequency 多频率 approach helps in analyzing complex signals more effectively.

这种多频率方法有助于更有效地分析复杂信号。

10.In marine navigation, multifrequency 多频率 GPS systems provide more accurate positioning.

在海洋导航中,多频率 GPS系统提供更准确的定位。

11.Using multifrequency 多频率 technology, the radar can detect multiple objects at once.

利用多频率技术,雷达可以同时探测多个物体。

12.The multifrequency 多频率 sonar technology allows for deeper underwater exploration.

这种多频率声纳技术允许更深入的水下探索。

作文

In today's rapidly evolving technological landscape, the concept of multifrequency (多频率) communication has emerged as a critical element in various fields, including telecommunications, broadcasting, and even medical applications. The ability to transmit and receive signals at multiple frequencies allows for more efficient data transfer, improved signal quality, and increased capacity for users. This essay will explore the significance of multifrequency (多频率) systems, their applications, and the benefits they bring to modern society.One of the most prominent applications of multifrequency (多频率) technology can be found in the realm of telecommunications. Mobile networks utilize multifrequency (多频率) signals to accommodate numerous users simultaneously. By operating on different frequencies, network providers can ensure that calls and data transmissions do not interfere with one another. This is particularly important in densely populated urban areas where the demand for mobile services is exceptionally high. Moreover, the implementation of multifrequency (多频率) technologies enables the development of advanced features such as voice over LTE (VoLTE) and 5G services, which promise faster speeds and lower latency for consumers.In addition to telecommunications, multifrequency (多频率) techniques play a crucial role in broadcasting. Radio and television stations often broadcast on multiple frequencies to reach a wider audience. This approach not only enhances the clarity of the transmitted signals but also ensures that the content is accessible to people in various geographical locations. For instance, FM radio stations may use multifrequency (多频率) transmission to provide better sound quality and reduce the likelihood of interference from other stations. As a result, listeners can enjoy a more reliable and enjoyable experience.Moreover, the medical field has also benefited from multifrequency (多频率) technology, particularly in imaging techniques such as ultrasound. Multifrequency ultrasound employs different frequencies to produce clearer images of internal organs and tissues, allowing healthcare professionals to make more accurate diagnoses. This advancement not only improves patient outcomes but also enhances the overall efficiency of medical procedures. By utilizing multifrequency (多频率) imaging, doctors can gather comprehensive information about a patient's condition without resorting to more invasive methods.The advantages of multifrequency (多频率) systems extend beyond mere functionality; they also contribute to the sustainability of our technological infrastructure. By optimizing the use of available frequencies, we can reduce the need for additional hardware and minimize energy consumption. This is particularly relevant in an era where environmental concerns are at the forefront of public discourse. By embracing multifrequency (多频率) solutions, industries can work towards reducing their carbon footprint while still meeting the demands of consumers.In conclusion, the concept of multifrequency (多频率) communication is integral to the advancement of modern technology. Its applications in telecommunications, broadcasting, and medicine illustrate the versatility and importance of this approach. As we continue to innovate and develop new technologies, the role of multifrequency (多频率) systems will undoubtedly expand, paving the way for a more connected and efficient future. Embracing these advancements not only enhances our daily lives but also contributes to a more sustainable world.

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