multiplexed
简明释义
英[ˈmʌltɪplekst]美[ˈmʌltɪplekst]
[通信] 多路复用
英英释义
单词用法
频分多路复用;频分多路传输;频率分隔多工;频分多路转换 |
同义词
反义词
| 解复用的 | 信号被解复用以恢复原始数据。 | ||
| 单一的 | The single channel provides a straightforward transmission method. | 单一通道提供了一种简单的传输方式。 |
例句
1.xSocket-multiplexed, supports running several logical connections on the top of one physical TCP connection.
xSocket-multiplexed,支持一个物理TCP连接之上运行的多个逻辑连接。
2.The socketcall syscall is multiplexed on the i386 architecture, so the -F a0=2 is required to limit the audit records generated to bind only.
这个 socketcall 系统调用在i386架构上是多元的,因此需要使用-Fa0=2 选项将所生成的审计记录仅仅限制在bind 上。
3.A kind of photonic band gap filter for wavelength division multiplexed is discussed with transfer matrix method.
利用传输矩阵法,研究了一种用于波分复用的光子晶体滤波器。
4.It was experimentally demonstrated that the multiplexed signal of each sensor can be clearly demodulated.
在实验所得的干涉信号中,我们能够明显地区分各个传感器对应的干涉图。
5.The techniques for multiplexed fiber grating sensors, espacial detection of multiple wavelength shift are discussed.
评述了复用光纤光栅传感器的有关技术,着重讨论了多波长移动探测解调技术。
6.Flow control and prioritization ensure that it is possible to properly use multiplexed streams.
流量控制和优先级能确保正确使用复用流。
7.In telecommunications, several calls can be multiplexed 复用 over a single line.
在电信中,多个电话可以在一条线路上进行复用。
8.A multiplexed 复用的 approach allows for more efficient use of resources.
一种复用的方法可以更有效地利用资源。
9.The video stream was multiplexed 复用 with audio for better synchronization.
视频流与音频复用以实现更好的同步。
10.The data was sent using a multiplexed 复用的 signal to maximize bandwidth.
数据使用一个复用的信号发送,以最大化带宽。
11.The system uses multiplexed 复用 channels to handle multiple data streams simultaneously.
该系统使用复用通道同时处理多个数据流。
作文
In the world of technology and communication, the term multiplexed plays a crucial role. It refers to the method of sending multiple signals or streams of information over a single channel or medium. This technique is widely used in various fields, including telecommunications, audio/video broadcasting, and data transmission. Understanding how multiplexed systems work can greatly enhance our comprehension of modern communication methods.To illustrate the concept, let’s consider a practical example: imagine a busy highway. If every vehicle were to travel on its own separate road, traffic would be inefficient and slow. Instead, all vehicles share the same lanes, allowing for a more streamlined flow of traffic. Similarly, multiplexed communication allows multiple data streams to coexist on a single channel, optimizing the use of available bandwidth.There are several types of multiplexed systems, such as Time Division Multiplexing (TDM) and Frequency Division Multiplexing (FDM). TDM works by allocating specific time slots for each signal, ensuring that they do not interfere with one another. In contrast, FDM divides the available bandwidth into different frequency bands, assigning each signal its own unique frequency. Both methods have their advantages and are chosen based on the requirements of the communication system.The benefits of using multiplexed systems are numerous. They not only increase the efficiency of data transmission but also reduce the need for additional physical infrastructure. By allowing multiple signals to share the same channel, service providers can deliver more services without the need for extensive cabling or hardware. This is particularly important in urban areas where space is limited and the cost of installation can be prohibitive.Moreover, multiplexed systems enhance the quality of communication. For instance, in audio and video broadcasting, multiplexing allows for the simultaneous transmission of multiple channels. Viewers can enjoy a variety of programming options without experiencing interruptions or degradation in quality. This is evident in digital television, where multiple channels are transmitted over a single cable line, providing viewers with an extensive selection of content.However, there are challenges associated with multiplexed systems. One significant issue is the potential for signal interference. When multiple signals share the same channel, they can sometimes disrupt one another, leading to a loss of quality or clarity. To mitigate this risk, engineers must carefully design multiplexed systems to ensure that each signal is adequately separated and protected from interference.In conclusion, the concept of multiplexed communication is integral to our modern technological landscape. By enabling the efficient transmission of multiple signals over a single channel, it enhances the quality and accessibility of communication services. As technology continues to advance, understanding and utilizing multiplexed systems will be essential for keeping pace with the ever-growing demand for data and connectivity. Whether in telecommunications, broadcasting, or data networking, the principles of multiplexed communication will undoubtedly play a vital role in shaping the future of how we connect and share information.
在科技和通信的世界中,术语multiplexed扮演着至关重要的角色。它指的是通过单一通道或介质发送多个信号或信息流的方法。这种技术广泛应用于电信、音频/视频广播和数据传输等多个领域。理解multiplexed系统的工作原理可以大大增强我们对现代通信方法的理解。为了说明这个概念,让我们考虑一个实际的例子:想象一条繁忙的高速公路。如果每辆车都要在自己的独立道路上行驶,交通将会非常低效且缓慢。相反,所有车辆共享相同的车道,从而实现更顺畅的交通流动。类似地,multiplexed通信允许多个数据流在单一通道上共存,优化了可用带宽的使用。有几种类型的multiplexed系统,例如时分复用(TDM)和频分复用(FDM)。TDM通过为每个信号分配特定的时间片段来工作,确保它们之间不会相互干扰。相反,FDM将可用带宽划分为不同的频率带,为每个信号分配其独特的频率。这两种方法各有优缺点,通常根据通信系统的要求进行选择。使用multiplexed系统的好处是显而易见的。它们不仅提高了数据传输的效率,还减少了对额外物理基础设施的需求。通过允许多个信号共享同一通道,服务提供商可以在不需要大量布线或硬件的情况下提供更多服务。这在城市地区尤其重要,因为空间有限且安装成本可能高昂。此外,multiplexed系统还提高了通信质量。例如,在音频和视频广播中,复用使得多条频道能够同时传输。观众可以享受多样化的节目选择,而不会出现中断或质量下降的情况。这在数字电视中尤为明显,其中多个频道通过一条电缆线路传输,为观众提供广泛的内容选择。然而,multiplexed系统也面临一些挑战。其中一个重大问题是信号干扰的可能性。当多个信号共享同一通道时,它们有时会相互干扰,导致质量或清晰度的下降。为了降低这种风险,工程师必须仔细设计multiplexed系统,以确保每个信号得到适当的分离并受到干扰的保护。总之,multiplexed通信的概念是现代科技领域不可或缺的一部分。通过实现多个信号在单一通道上的高效传输,它提高了通信服务的质量和可达性。随着技术的不断进步,理解和利用multiplexed系统对于跟上日益增长的数据和连接需求至关重要。无论是在电信、广播还是数据网络中,multiplexed通信的原则无疑将在塑造我们连接和分享信息的未来中发挥重要作用。
