duobinary

简明释义

英[ˌduːəʊˈbaɪnəri]美[ˌduːəʊˈbaɪnəri]

adj. [数] 双二进制的

英英释义

单词用法

同义词

反义词

例句

1.The characteristics and the R&D trend of a optical partial response digital transmission technology, namely optical duobinary transmission, are thoroughly introduced and discussed.

对一种新型光部分响应数字传输技术即光双二进制技术的特点与发展趋势进行了深入研究和介绍。

2.The characteristics and the R&D trend of a optical partial response digital transmission technology, namely optical duobinary transmission, are thoroughly introduced and discussed.

对一种新型光部分响应数字传输技术即光双二进制技术的特点与发展趋势进行了深入研究和介绍。

3.The new telecommunications system utilizes a duobinary 双二进制 signaling method to improve data transmission efficiency.

新的电信系统利用duobinary 双二进制 信号方法来提高数据传输效率。

4.In digital communications, duobinary 双二进制 encoding can help reduce bandwidth requirements.

在数字通信中，duobinary 双二进制 编码可以帮助减少带宽需求。

5.The duobinary 双二进制 technique is often used in high-speed fiber optic networks.

在高速光纤网络中，常常使用duobinary 双二进制 技术。

6.By implementing a duobinary 双二进制 system, we can achieve better noise immunity in our signals.

通过实施duobinary 双二进制 系统，我们可以在信号中实现更好的抗噪声能力。

7.The research paper discusses the advantages of using duobinary 双二进制 modulation in wireless communication.

这篇研究论文讨论了在无线通信中使用duobinary 双二进制 调制的优点。

作文

In the world of digital communication, efficient data transmission is paramount. One innovative approach that has gained attention in recent years is the concept of duobinary. This technique allows for the encoding of data in a way that minimizes errors and maximizes the use of bandwidth. To understand duobinary, we must first explore the basics of binary signaling. In traditional binary systems, data is represented by two distinct states, typically 0 and 1. However, this can lead to challenges in signal integrity, especially over long distances. The introduction of duobinary signaling offers a solution by using a more sophisticated method of representation. Instead of relying solely on the two states, duobinary incorporates additional levels of signal states, which can effectively convey more information within the same bandwidth. This not only improves the efficiency of data transmission but also enhances the overall capacity of communication systems. One of the key benefits of duobinary signaling is its ability to reduce inter-symbol interference (ISI), a common issue in digital communications where signals overlap and cause confusion at the receiver end. By utilizing a combination of positive and negative pulses, duobinary creates a clearer distinction between transmitted signals, thus improving the reliability of data reception. Furthermore, duobinary is particularly advantageous in high-speed optical networks, where the demand for rapid data transfer is ever-increasing. As the internet continues to expand and the volume of data being transmitted grows exponentially, technologies like duobinary are becoming essential. They allow for the optimization of existing infrastructure, enabling telecommunication companies to meet the rising demands without the need for extensive upgrades. In addition to its technical advantages, duobinary also plays a role in the economic aspect of data transmission. By increasing the efficiency of bandwidth usage, companies can reduce operational costs while providing better services to their customers. This dual benefit of improved performance and cost-effectiveness makes duobinary an attractive option for many businesses in the telecommunications sector. In conclusion, the duobinary technique represents a significant advancement in the field of digital communication. Its ability to encode data efficiently while minimizing errors positions it as a valuable tool for modern telecommunications. As technology continues to evolve, understanding and implementing methods like duobinary will be crucial for ensuring the smooth flow of information in our increasingly connected world.

在数字通信的世界中，高效的数据传输至关重要。近年来，一种创新的方法引起了人们的关注，那就是duobinary的概念。这种技术允许以一种最小化错误和最大化带宽使用的方式编码数据。为了理解duobinary，我们首先必须探索二进制信号的基础。在传统的二进制系统中，数据由两个不同的状态表示，通常是0和1。然而，这可能导致信号完整性的问题，特别是在长距离传输时。duobinary信号的引入提供了一种解决方案，它采用了一种更复杂的表示方法。它不仅依赖于两个状态，而是结合了额外的信号状态，这可以有效地在同一带宽内传达更多信息。这不仅提高了数据传输的效率，还增强了通信系统的整体容量。duobinary信号的一个关键好处是其减少符号间干扰（ISI）的能力，这是数字通信中常见的问题，信号重叠并导致接收端的混淆。通过利用正负脉冲的组合，duobinary创建了传输信号之间更清晰的区分，从而提高了数据接收的可靠性。此外，duobinary在高速光网络中尤其具有优势，在这些网络中，对快速数据传输的需求不断增加。随着互联网的持续扩展和传输数据量的指数级增长，像duobinary这样的技术变得至关重要。它们允许优化现有基础设施，使电信公司能够满足日益增长的需求，而无需进行大量升级。除了技术优势之外，duobinary在数据传输的经济方面也发挥了作用。通过提高带宽使用效率，公司可以在提供更好服务的同时降低运营成本。这种性能改善与成本效益的双重好处使得duobinary成为许多电信行业企业的吸引选项。总之，duobinary技术代表了数字通信领域的重要进展。其高效编码数据、最小化错误的能力使其成为现代电信的宝贵工具。随着技术的不断发展，理解和实施像duobinary这样的技术将对确保我们日益互联的世界中的信息流畅至关重要。