调查 DDoS 防御的新趋势

Sumith Pandey
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引用次数: 0

摘要

DDoS 攻击威胁在不断演变,正因为如此,各组织正在发现和使用新的现代技术,为制定更有效的防御策略奠定基础。本文致力于研究对抗 DDoS(网络宕机)的最有效方法,确保不同领域的网络安全。首先,与 LSTM 和 SAE 等机器学习方法相比,将卷积神经网络(CNN)整合到网络安全中是一个非常有前景的举措,可以更详细地精确打击网络钓鱼和应用层 DDoS 攻击。要有效抵御针对关键基础设施(如电力系统)的虚假数据攻击,另一个方法是创建由各种及时检测技术和强大网络架构组成的多维缓解模型。此外,在网络架构中使用物理不可克隆函数(PUF)提供了一种身份验证和访问控制手段,可以提高网络抵御 DDoS 攻击的能力。物理不可失效函数可以阻止大流量中不需要的数据包,实现细粒度的流量过滤和隔离。通过使用硬件解决方案(如分布式拒绝服务(DDoS)攻击防御)、基于 SDN 的安全框架和深度学习算法,可以显著检测和响应慢速 DDoS 攻击,从而提高网络弹性。最后,作为统计方法的 EWMA、KNN 和 CUSUM 与 FOG 计算架构相结合,可确保为检测和缓解物联网网络中的 DDoS 攻击提供实时有效的解决方案,使其免受当前和不断出现的网络威胁的影响。通过整合这些前沿方法,企业将能够抵御由 DDoS 威胁催化的网络攻击,并在动态威胁出现时保持领先。关键词:云计算、数据威胁、数据保护、云安全。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Surveying Emerging Trends in DDoS Defense
This The DDoS attack threat is evolving, and because of this, organizations are discovering and using new modern technologies to lay the ground for more effective defensive strategies. This paper is devoted to the investigation of the most efficient methods fighting DDoS – downtime of the network, and ensuring cybersecurity on different domains. First of all, the integration of Convolutional Neural Networks (CNNs) into cybersecurity is a very promising move with respect to fighting exactly the phishing and application-layer DDoS attacks in greater details than the machine learning approaches like the LSTMs and SAEs. Another aspect of building the effective opposition against the dummy data attacks on the critical infrastructures, for example on the power systems, is creating the multi-dimensional mitigation models composed of various timely detection techniques and robust network architecture. In addition, the usage of Physically Unclonable Functions (PUFs) in network architectures provides a means of authentication as well as access control that can improve the resilience of a network against DDoS attacks. PUFs enables the blockade of unwanted packets of high volume traffic, allowing granular traffic filtration and isolation. By using hardware solutions such as Distributed-Denial-of-Service (DDoS) attack prevention, SDN-biased security frame with deep learning algorithms can improve network resilience with significant detection and response to slow-rate DDoS attacks. At last EWMA, KNN, and CUSUM as statistical methods integrated with FOG computing architectures ensure real time and effective solution for the detection and mitigation of DDoS attacks in the IoT networks, making them immune to the current as well as the continuously emerging cyber threats. Through the integration of these cutting edge methods, organizations will be able to hold their ground against cyberattacks catalyzed by DDoS menace and stay ahead of dynamic threats whenever they arise. Keywords— Cloud computing, Data threats, Data Protection, Cloud security.
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