Exploration on the application of electronic information technology in signal processing based on big data

IF 1.1 Q3 COMPUTER SCIENCE, THEORY & METHODS Open Computer Science Pub Date : 2023-01-01 DOI:10.1515/comp-2022-0272
Li Liu
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Abstract

Abstract Mobile phones are the most commonly used electronic devices in people’s daily life. The image, voice, and other information in these devices need to be processed through signal transmission. The role of signal processing is to process the acquired information in a certain way to get the final result. In order to ensure that the whole processing program can work normally, it is necessary to implement good control to achieve the desired effect. However, with the continuous progress and development of science and technology, its requirements are becoming increasingly strict. The traditional signal processing method is unreliable, has poor real time, and has error-prone characteristics, which can no longer meet the accuracy requirements of current information acquisition equipment. Therefore, people begin to study more complex and precise information processing methods and apply these algorithms to various advanced electronic devices to achieve better results. From the perspective of big data, electronic information technology is generated and developed based on massive data processing. It not only has a strong storage function but also has strong computing power and a wide range of application scenarios. It has strong applicability in real life. In this article, the signal to be processed was divided into several wavelet components in different frequency ranges by empirical mode decomposition technology, and then the signal was denoised by combining three wavelet denoising methods to obtain noise data with good signal-to-noise ratio and high classification accuracy. Finally, the corresponding feature information was extracted according to the signal-receiving model to improve the system recognition rate. This article compared the traditional signal processing methods with the signal processing approaches from the perspective of electronic information technology. The results showed that the processing method had a high computing speed and could better solve the problem of detection performance degradation caused by interference. User satisfaction had also increased by 2.87%, which showed that signal processing based on big data and information processing technology had broad application prospects in communication systems. The core of open computer science is to build a unified, efficient, and scalable computing platform based on massive data processing and use signal processing and computer technology to manage and optimize the scheduling of information resources to better meet various business needs.
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电子信息技术在基于大数据的信号处理中的应用探索
手机是人们日常生活中最常用的电子设备。这些设备中的图像、语音等信息都需要通过信号传输进行处理。信号处理的作用就是对采集到的信息进行一定的处理,从而得到最终的结果。为了保证整个加工程序能够正常工作,必须实施良好的控制,以达到预期的效果。然而,随着科学技术的不断进步和发展,对其要求也越来越严格。传统的信号处理方法不可靠,实时性差,容易出错,已经不能满足当前信息采集设备的精度要求。因此,人们开始研究更复杂和精确的信息处理方法,并将这些算法应用到各种先进的电子设备中,以达到更好的效果。从大数据的角度来看,电子信息技术是在海量数据处理的基础上产生和发展起来的。它不仅具有强大的存储功能,而且具有强大的计算能力和广泛的应用场景。在现实生活中具有很强的适用性。本文通过经验模态分解技术将待处理信号分解成不同频率范围内的几个小波分量,然后结合三种小波去噪方法对信号进行去噪,得到信噪比好、分类精度高的噪声数据。最后,根据信号接收模型提取相应的特征信息,提高系统识别率。本文将传统的信号处理方法与电子信息技术视角下的信号处理方法进行了比较。结果表明,该处理方法计算速度快,能较好地解决干扰引起的检测性能下降问题。用户满意度提高2.87%,表明基于大数据和信息处理技术的信号处理在通信系统中具有广阔的应用前景。开放计算机科学的核心是构建基于海量数据处理的统一、高效、可扩展的计算平台,利用信号处理和计算机技术对信息资源进行管理和优化调度,更好地满足各种业务需求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Open Computer Science
Open Computer Science COMPUTER SCIENCE, THEORY & METHODS-
CiteScore
4.00
自引率
0.00%
发文量
24
审稿时长
25 weeks
期刊最新文献
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