An Adaptive Intrusion Detection Algorithm Based on Improved Dynamic Clonal Selection Algorithms

Sixth International Conference on Intelligent Systems Design and Applications Pub Date : 2006-10-16 DOI:10.1109/ISDA.2006.253760

Tie-shan Zhao, Zeng-zhi Li, Ze-Min Wang, Xiaofen Lin

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引用次数: 2

Abstract

Intrusion detection systems' adaptability and diversity have been researched for long time. With the development of computer immunology, the dynamic clonal selection algorithm is tried to solve the problem. Based on some improved dynamic clonal selection algorithms, an adaptive intrusion detection algorithm is presented in this paper. According to the algorithm, an intrusion detection system is composed of a self-body antigen set, a memorial immunocyte set, a mature immunocyte set and an immature immunocyte set. An immature immunocyte grows into a mature one if it goes through self-tolerance. A mature immunocyte grows into a memorial one if it matches enough non-self-body antigens in limited time and it goes through co-stimulation. A memorial immunocyte doesn't die until it can't go through co-stimulation. Immature immunocytes are generated with clone and hypermutation methods when necessary. The self-body antigen set is renewed during above co-stimulation. Simulation experiments prove that the algorithm have good adaptability and diversity

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一种基于改进动态克隆选择算法的自适应入侵检测算法

入侵检测系统的适应性和多样性已经被研究了很长时间。随着计算机免疫学的发展，动态克隆选择算法被尝试用于解决这一问题。本文在改进动态克隆选择算法的基础上，提出了一种自适应入侵检测算法。根据该算法，入侵检测系统由自身抗原集、记忆免疫细胞集、成熟免疫细胞集和未成熟免疫细胞集组成。一个未成熟的免疫细胞如果经过自我耐受性，就会成长为成熟的免疫细胞。一个成熟的免疫细胞如果在有限的时间内匹配足够多的非自体抗原，并经过共刺激，就会成长为一个记忆细胞。记忆免疫细胞只有在无法接受共刺激时才会死亡。必要时采用克隆和超突变的方法生成未成熟的免疫细胞。在上述共刺激过程中，自体抗原集被更新。仿真实验证明该算法具有良好的自适应性和多样性

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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Sixth International Conference on Intelligent Systems Design and Applications

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