When constructing biologically inspired algorithms, important properties to consider are openness, diversity, interaction, structure and scale. In this paper, we focus on the property of diversity. Introducing diversity into biologically inspired paradigms is a key feature of their success. Within the field of Artificial Immune Systems, little attention has been paid to this issue. Typically, techniques of diversity introduction, such as simple random number generation, are employed with little or no consideration to the application area. Using function optimisation as a case study, we propose a simple immune inspired mutation operator that is tailored to the problem at hand. We incorporate this diversity operator into a well known immune i...
The primary objective of this paper is to put forward a general framework under which clear definit...
This thesis presents novel multi-layered natural immune system (NIS) inspired algorithms in the doma...
Abstract. In this paper, we propose an algorithm based on the clonal selection principle to solve mu...
When constructing biologically inspired algorithms, important properties to consider are openness, d...
Abstract. The standard Genetic Algorithm has several limitations when dealing with dynamic environme...
In typical applications, genetic algorithms (GAs) process populations of potential problem solutions...
The emergence of nature-inspired algorithms (NIA) is a great milestone in the field of computational...
In many real-world scenarios, in contrast to standard benchmark optimization problems, we may face s...
Diversity and memory are two major mechanisms used in biology to keep the adaptability of organisms ...
Abstract—This paper proposes an artificial immune system based algorithm for solving constrained opt...
The field of Artificial Immune Systems (AIS) derives inspiration from processes and mechanisms appar...
Multimodal optimization algorithms inspired by the immune system are generally characterized by a dy...
The primary objective of this paper is to put forward a general frameworkunder which clear definitio...
This study proposes a modified artificial immune network algorithm for function optimization problem...
Immunological algorithms are a kind of bio-inspired intelli-gence methods which draw inspiration fro...
The primary objective of this paper is to put forward a general framework under which clear definit...
This thesis presents novel multi-layered natural immune system (NIS) inspired algorithms in the doma...
Abstract. In this paper, we propose an algorithm based on the clonal selection principle to solve mu...
When constructing biologically inspired algorithms, important properties to consider are openness, d...
Abstract. The standard Genetic Algorithm has several limitations when dealing with dynamic environme...
In typical applications, genetic algorithms (GAs) process populations of potential problem solutions...
The emergence of nature-inspired algorithms (NIA) is a great milestone in the field of computational...
In many real-world scenarios, in contrast to standard benchmark optimization problems, we may face s...
Diversity and memory are two major mechanisms used in biology to keep the adaptability of organisms ...
Abstract—This paper proposes an artificial immune system based algorithm for solving constrained opt...
The field of Artificial Immune Systems (AIS) derives inspiration from processes and mechanisms appar...
Multimodal optimization algorithms inspired by the immune system are generally characterized by a dy...
The primary objective of this paper is to put forward a general frameworkunder which clear definitio...
This study proposes a modified artificial immune network algorithm for function optimization problem...
Immunological algorithms are a kind of bio-inspired intelli-gence methods which draw inspiration fro...
The primary objective of this paper is to put forward a general framework under which clear definit...
This thesis presents novel multi-layered natural immune system (NIS) inspired algorithms in the doma...
Abstract. In this paper, we propose an algorithm based on the clonal selection principle to solve mu...