impulse code

简明释义

脉冲码

英英释义

例句

1.Researchers developed a new impulse code that reduces noise in audio signals.

研究人员开发了一种新的脉冲编码，可以减少音频信号中的噪声。

2.The engineer implemented an impulse code to optimize the signal processing in the communication system.

工程师实施了一个脉冲编码以优化通信系统中的信号处理。

3.In digital communications, impulse code is used to represent information in a compact form.

在数字通信中，脉冲编码用于以紧凑的形式表示信息。

4.The software update included enhancements to the impulse code algorithm.

软件更新包括对脉冲编码算法的增强。

5.The impulse code allows for efficient data transmission over long distances.

该脉冲编码允许在长距离内高效传输数据。

作文

In the realm of technology and digital communication, various terminologies come into play that often require deeper understanding. One such term is impulse code, which refers to a method of encoding information in a way that utilizes brief bursts or 'impulses' of data. This technique is significant in multiple fields, including telecommunications, computer science, and signal processing. Understanding impulse code is essential for those who wish to delve into the intricacies of how information is transmitted and processed in our increasingly digital world.To comprehend the concept of impulse code, we first need to recognize its fundamental role in data transmission. In essence, it involves sending signals in short, discrete packets rather than as continuous streams. This approach has several advantages, particularly in terms of efficiency and clarity. For instance, when transmitting data over long distances, using impulse code can help minimize the loss of information and enhance the integrity of the signal. This is because shorter bursts of data are less susceptible to interference and degradation compared to continuous signals.Moreover, impulse code plays a vital role in various encoding schemes, such as pulse code modulation (PCM). PCM is widely used in digital audio, where sound waves are converted into a series of pulses that represent the amplitude of the audio signal at specific intervals. By employing impulse code, PCM allows for high fidelity in sound reproduction, making it a standard in digital audio technologies, including CDs and streaming services.Another important aspect of impulse code is its application in error detection and correction. In digital communications, errors can occur during data transmission due to noise, interference, or other factors. By utilizing impulse code, systems can implement robust error-checking algorithms that identify and correct these errors, ensuring that the information received is accurate and reliable. This is particularly crucial in critical applications such as financial transactions, medical data transfer, and real-time communications, where accuracy is paramount.Furthermore, the concept of impulse code extends beyond traditional data transmission. In the field of machine learning and artificial intelligence, impulse coding techniques are being explored for efficient data representation and processing. For example, researchers are investigating how impulse code can be utilized in neural networks to enhance learning efficiency and reduce computational requirements. This innovative approach could lead to more advanced AI systems capable of processing vast amounts of data quickly and accurately.In conclusion, the term impulse code encapsulates a crucial aspect of modern digital communication and data processing. Its applications range from telecommunications to audio engineering and even artificial intelligence. As we continue to advance technologically, understanding concepts like impulse code becomes increasingly important. It not only enhances our comprehension of how information is transmitted but also opens the door to innovations that can further improve the efficiency and reliability of our digital systems. Therefore, embracing the knowledge of impulse code is essential for anyone looking to thrive in the fast-evolving landscape of technology and communication.

在技术和数字通信的领域中，各种术语常常需要更深入的理解。其中一个术语是冲动编码，它指的是一种以短暂的数据“冲动”或“脉冲”方式编码信息的方法。这种技术在多个领域中具有重要意义，包括电信、计算机科学和信号处理。理解冲动编码对于希望深入了解信息如何在我们日益数字化的世界中传输和处理的人来说至关重要。为了理解冲动编码的概念，我们首先需要认识到它在数据传输中的基本作用。简单来说，它涉及以短而离散的数据包发送信号，而不是连续流。这种方法具有多种优势，特别是在效率和清晰度方面。例如，在长距离传输数据时，使用冲动编码可以帮助最小化信息丢失并增强信号的完整性。这是因为与连续信号相比，较短的数据突发更不易受到干扰和衰减。此外，冲动编码在各种编码方案中也发挥着重要作用，例如脉冲编码调制（PCM）。PCM广泛应用于数字音频，其中声波被转换为一系列脉冲，这些脉冲代表音频信号在特定间隔的幅度。通过采用冲动编码，PCM能够实现高保真度的声音再现，使其成为数字音频技术的标准，包括CD和流媒体服务。冲动编码的另一个重要方面是它在错误检测和纠正中的应用。在数字通信中，由于噪声、干扰或其他因素，数据传输过程中可能会发生错误。通过利用冲动编码，系统可以实施强大的错误检查算法，识别并纠正这些错误，确保接收的信息准确可靠。这在金融交易、医疗数据传输和实时通信等关键应用中尤为重要，因为准确性至关重要。此外，冲动编码的概念超越了传统的数据传输。在机器学习和人工智能领域，研究人员正在探索冲动编码技术在高效数据表示和处理中的应用。例如，研究人员正在研究如何利用冲动编码来增强神经网络的学习效率并减少计算需求。这种创新的方法可能导致更先进的人工智能系统，能够快速准确地处理大量数据。总之，术语冲动编码概括了现代数字通信和数据处理的一个关键方面。它的应用范围从电信到音频工程，甚至到人工智能。随着我们技术的不断进步，理解像冲动编码这样的概念变得越来越重要。它不仅增强了我们对信息如何传输的理解，还为进一步提高我们数字系统的效率和可靠性开辟了创新的大门。因此，掌握冲动编码的知识对于任何希望在快速发展的技术和通信领域中取得成功的人来说都是至关重要的。