基于最新最优联合深度学习模型的物联网安全攻击异常检测

Udayakumar Dr.R., Anuradha Dr.M., Dr. Yogesh Manohar Gajmal, Elankavi Dr.R.
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引用次数: 0

摘要

近年来,物联网(iot)和分散的网络安全范式在网络安全领域的蓬勃发展引起了政府、学术界和商界的广泛关注。近年来,在物联网安全领域使用mlt辅助技术引起了很多关注。目前的许多研究假设,大量的训练数据很容易从物联网设备访问,并可转移到主服务器。然而,由于数据托管在单个服务器上,因此有关这些数据的安全和隐私问题也会增加。建议在基于OFDL(最优联邦深度学习)的异常检测中使用分散的设备上数据,以主动识别物联网网络中的渗透。在OFDL的训练轮次中使用的gru(门控循环单元)只与主要OFDL服务器共享已学习的权重,以保护本地设备上的数据完整性。通过使用适当的参数来降低模型的培训成本,这也保证了边缘或物联网设备的安全。为了优化有限OFDL环境下的超参数环境,本文提出了一种修正Salp群优化(MSSO)方法。此外,合奏结合了多种技术的更新,以提高准确性。实验结果表明,该策略比传统/集中式mlt更好地保护了用户数据隐私,并提供了最佳的攻击检测准确率。
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Anomaly Detection for Internet of Things Security Attacks Based on Recent Optimal Federated Deep Learning Model
The mushrooming of IoTs (Internet of Things) and decentralised paradigm in cyber security have attracted a lot of interest from the government, academic, and business sectors in recent years. The use of MLT-assisted techniques in the IoT security arena has attracted a lot of attention in recent years. Many current studies presume that massive training data is readily accessible from IoT devices and transferable to main servers. However, since data is hosted on single servers, security and privacy concerns regarding this data also increase. It is suggested to use decentralised on-device data in OFDL (Optimal Federated Deep Learning) based anomaly detections to proactively identify infiltration in networks for IoTs. The GRUs (Gated Recurrent Units) used in OFDL's training rounds share only learned weights with the main OFDL servers, protecting data integrity on local devices. The model's training costs are reduced by the use of appropriate parameters, which also secures the edge or IoT device. In order to optimise the hyper-parameter environments for the limited OFDL environment, this paper suggests an MSSO (Modified Salp Swarm Optimisation) approach. Additionally, ensembles combine updates from multiple techniques to enhance accuracies. The experimental findings show that this strategy secures user data privacy better than traditional/centralized MLTs and offers the best accuracy rate for attack detection.
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来源期刊
Journal of Internet Services and Information Security
Journal of Internet Services and Information Security Computer Science-Computer Science (miscellaneous)
CiteScore
3.90
自引率
0.00%
发文量
0
审稿时长
8 weeks
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