decoded signal

简明释义

译码信号

英英释义

例句

1.The software is designed to improve the accuracy of the decoded signal in noisy environments.

该软件旨在提高嘈杂环境中解码信号的准确性。

2.After several attempts, the team finally achieved a clear decoded signal from the satellite.

经过几次尝试，团队终于从卫星获得了清晰的解码信号。

3.The receiver processed the decoded signal to retrieve the original message.

接收器处理了解码信号以提取原始消息。

4.In telecommunications, a strong decoded signal ensures better call quality.

在电信领域，强大的解码信号确保更好的通话质量。

5.Engineers are working on algorithms to enhance the decoded signal from wireless networks.

工程师们正在研究算法，以增强无线网络中的解码信号。

作文

In today's fast-paced world, communication technology plays a pivotal role in our daily lives. One of the fundamental concepts that underpin this technology is the idea of a decoded signal. A decoded signal refers to the process by which information transmitted through various mediums, such as radio waves or digital networks, is interpreted and made intelligible to the receiver. This concept is not only crucial for telecommunications but also extends to various fields including computer science, audio engineering, and even neuroscience.To better understand the significance of a decoded signal, we can consider a simple example: when you make a phone call, your voice is converted into electrical signals. These signals travel through wires or airwaves to reach the other person’s device. At the receiving end, these signals must be interpreted correctly to reproduce your voice. The process of translating these raw signals back into recognizable sound is what we refer to as decoding. Without this decoded signal, the communication would be garbled and meaningless.The importance of decoded signals can also be observed in digital communications. For instance, when you send an email, the text you write is transformed into binary code (a series of 0s and 1s) before being transmitted over the internet. When the recipient opens the email, their device decodes this binary data back into readable text. This seamless transition from one form of data to another is vital for effective communication in the digital age.Moreover, decoding is not limited to just electronic signals. In the realm of neuroscience, researchers study how the brain interprets sensory inputs as decoded signals. For example, when you listen to music, your ears pick up sound waves, which are then converted into electrical impulses that travel to your brain. The brain decodes these impulses, allowing you to experience the melody and rhythm of the song. Understanding this process helps scientists develop better treatments for hearing impairments and contributes to advancements in artificial intelligence, where machines aim to replicate human-like understanding of sounds and languages.The challenges faced in the decoding process can be significant, especially in environments with high levels of noise or interference. For instance, during a crowded event, background noise can distort the decoded signal, making it difficult to hear a conversation clearly. Engineers continuously work on improving technologies such as noise-cancelling headphones and advanced algorithms that enhance signal clarity, ensuring that the decoded signals remain accurate and reliable.In conclusion, the concept of a decoded signal is integral to our understanding of communication across various domains. Whether it's through telecommunication devices, digital platforms, or even our own sensory experiences, the ability to decode signals accurately allows us to connect and share information effectively. As technology continues to evolve, the methods and tools we use to decode signals will undoubtedly advance, paving the way for even more sophisticated forms of communication in the future. Embracing the significance of decoded signals not only highlights the complexity of communication but also showcases the remarkable progress we have made in bridging gaps between different forms of information exchange.

在当今快节奏的世界中，通信技术在我们的日常生活中发挥着关键作用。支撑这一技术的基本概念之一是“解码信号”的概念。“解码信号”指的是通过各种媒介（如无线电波或数字网络）传输的信息被解释并使接收者能够理解的过程。这个概念不仅对电信至关重要，还扩展到计算机科学、音频工程甚至神经科学等多个领域。为了更好地理解“解码信号”的重要性，我们可以考虑一个简单的例子：当你打电话时，你的声音会被转换成电信号。这些信号通过电线或无线电波传输到对方的设备。在接收端，这些信号必须被正确解释，以重现你的声音。将这些原始信号翻译回可识别的声音的过程就是我们所称之为解码的过程。如果没有这个“解码信号”，交流将会变得混乱且毫无意义。“解码信号”的重要性也可以在数字通信中观察到。例如，当你发送电子邮件时，你写的文本会在发送前转化为二进制代码（0和1的序列）。当收件人打开电子邮件时，他们的设备会将这些二进制数据解码回可读的文本。这种从一种数据形式到另一种数据形式的无缝过渡对于数字时代的有效沟通至关重要。此外，解码不仅限于电子信号。在神经科学领域，研究人员研究大脑如何将感官输入作为“解码信号”进行解释。例如，当你听音乐时，你的耳朵捕捉到声波，这些声波随后被转化为电冲动，传输到你的大脑。大脑解码这些冲动，使你能够体验到歌曲的旋律和节奏。理解这一过程有助于科学家开发更好的听力障碍治疗方法，并推动人工智能的进步，机器旨在复制人类对声音和语言的理解。在解码过程中面临的挑战可能是显著的，特别是在高噪音或干扰的环境中。例如，在拥挤的活动中，背景噪音可能会扭曲“解码信号”，使得清晰地听到对话变得困难。工程师们不断致力于改进诸如降噪耳机和先进算法等技术，以增强信号的清晰度，确保“解码信号”保持准确和可靠。总之，“解码信号”的概念对我们理解各个领域的沟通至关重要。无论是通过电信设备、数字平台，还是我们自己的感官体验，准确解码信号的能力使我们能够有效地连接和分享信息。随着技术的不断发展，我们用于解码信号的方法和工具无疑会进步，为未来更复杂的沟通形式铺平道路。接受“解码信号”的重要性不仅突显了沟通的复杂性，还展示了我们在弥合不同信息交流形式之间取得的显著进展。