物联网智能家居系统动态卸载中的混合计算框架安全性

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Sheharyar Khan, Zheng Jiangbin, Farhan Ullah, Muhammad Pervez Akhter, Sohrab Khan, Fuad A. Awwad, Emad A.A. Ismail
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引用次数: 0

摘要

在分布式计算时代,云计算通过简化资源访问,彻底改变了组织运营。然而,物联网的快速发展带来了协同计算,从而引发了可扩展性和安全性方面的挑战。为了充分发挥物联网(IoT)在智能家居技术中的潜力,仍然需要强大的数据安全解决方案,这对于结合边缘计算、雾计算和云计算进行动态卸载至关重要。本研究针对智能家居面临的挑战,对联网物联网设备内部的数据安全、隐私、处理速度、存储容量限制和分析进行了深入研究。我们介绍了可信物联网大数据分析(TIBDA)框架,作为重塑智能生活的综合解决方案。我们的主要重点是缓解普遍存在的数据安全和隐私问题。TIBDA 融合了强大的信任机制,优先考虑数据隐私和可靠性,以确保智能家居环境中的安全处理和用户信息保密。为此,我们采用了一种混合密码系统,该系统结合了椭圆曲线密码学(ECC)、后量子密码学(PQC)和区块链技术(BCT),以保护用户隐私和机密性。此外,我们还全面比较了四种著名的人工智能异常检测算法(隔离林、局部离群因子、单类 SVM 和椭圆包络)。我们利用机器学习分类算法(随机森林、k-近邻、支持向量机、线性判别分析和二次判别分析)来检测智能家居系统中的恶意和非恶意活动。此外,研究的主要部分是在人工神经网络(ANN)动态算法的帮助下,TIBDA 框架设计了一个混合计算系统,该系统集成了边缘、雾和云架构,在实时处理物联网设备数据的同时,还能有效支持众多用户。分析表明,TIBDA 在各种指标上都明显优于这些系统。就响应时间而言,在不同的用户负载、设备数量和交易量条件下,TIBDA比其他系统缩短了10-20%。在安全性方面,TIBDA 的 AUC 值始终比其他系统高出 5-15%,这表明其对威胁的防护能力更强。此外,TIBDA 还表现出最高的可信度,其正常运行时间百分比比竞争对手高出 10-12%。TIBDA 的隔离森林算法准确率达到 99.30%,随机森林算法准确率达到 94.70%,比其他方法高出 8-11%。此外,我们基于 ANN 的卸载决策模型的验证准确率达到了 99%,损耗降低到了 0.11,在资源利用率和系统性能方面都有显著提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hybrid computing framework security in dynamic offloading for IoT-enabled smart home system
In the distributed computing era, cloud computing has completely changed organizational operations by facilitating simple access to resources. However, the rapid development of the IoT has led to collaborative computing, which raises scalability and security challenges. To fully realize the potential of the Internet of Things (IoT) in smart home technologies, there is still a need for strong data security solutions, which are essential in dynamic offloading in conjunction with edge, fog, and cloud computing. This research on smart home challenges covers in-depth examinations of data security, privacy, processing speed, storage capacity restrictions, and analytics inside networked IoT devices. We introduce the Trusted IoT Big Data Analytics (TIBDA) framework as a comprehensive solution to reshape smart living. Our primary focus is mitigating pervasive data security and privacy issues. TIBDA incorporates robust trust mechanisms, prioritizing data privacy and reliability for secure processing and user information confidentiality within the smart home environment. We achieve this by employing a hybrid cryptosystem that combines Elliptic Curve Cryptography (ECC), Post Quantum Cryptography (PQC), and Blockchain technology (BCT) to protect user privacy and confidentiality. Additionally, we comprehensively compared four prominent Artificial Intelligence anomaly detection algorithms (Isolation Forest, Local Outlier Factor, One-Class SVM, and Elliptic Envelope). We utilized machine learning classification algorithms (random forest, k-nearest neighbors, support vector machines, linear discriminant analysis, and quadratic discriminant analysis) for detecting malicious and non-malicious activities in smart home systems. Furthermore, the main part of the research is with the help of an artificial neural network (ANN) dynamic algorithm; the TIBDA framework designs a hybrid computing system that integrates edge, fog, and cloud architecture and efficiently supports numerous users while processing data from IoT devices in real-time. The analysis shows that TIBDA outperforms these systems significantly across various metrics. In terms of response time, TIBDA demonstrated a reduction of 10–20% compared to the other systems under varying user loads, device counts, and transaction volumes. Regarding security, TIBDA’s AUC values were consistently higher by 5–15%, indicating superior protection against threats. Additionally, TIBDA exhibited the highest trustworthiness with an uptime percentage 10–12% greater than its competitors. TIBDA’s Isolation Forest algorithm achieved an accuracy of 99.30%, and the random forest algorithm achieved an accuracy of 94.70%, outperforming other methods by 8–11%. Furthermore, our ANN-based offloading decision-making model achieved a validation accuracy of 99% and reduced loss to 0.11, demonstrating significant improvements in resource utilization and system performance.
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CiteScore
7.20
自引率
4.30%
发文量
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