This thesis examines the use of immunological metaphors in building serial, parallel, and distributed learning algorithms. It offers a basic study in the development of biologically-inspired algorithms which merge inspiration from biology with known, standard computing technology to examine robust methods of computing. This thesis begins by detailing key interactions found within the immune system that provide inspiration for the development of a learning system. It then exploits the use of more processing power for the development of faster algorithms. This leads to the exploration of distributed computing resources for the examination of more biologically plausible systems. This thesis offers the following main contributions. The componen...
We propose that bio-inspired algorithms are best developed and analysed in the context of a multidis...
The paper concentrates on analyzing associative properties of Artificial Immune Systems, especially ...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
This thesis examines the use of immunological metaphors in building serial, parallel, and distribute...
mammalian immune system as a source of inspiration and metaphor for computational tasks. One avenue...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
This thesis presents novel multi-layered natural immune system (NIS) inspired algorithms in the doma...
The biological immune system is a robust, complex, adaptive system that defends the body from foreig...
The immune system is highly distributed, highly adaptive, self-organising in nature, maintains a mem...
The mammalian acquired immune system is a robust and powerful information processing system that dem...
The development of adaptive and intelligent computational methods is an important frontier in the fi...
This paper presents the inception and subsequent revisions of an immune-inspired supervised learning...
A Multi-Layered Immune Inspired Approach to Data Mining. Thomas Knight and Jon Timmis Computing Labo...
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
We propose that bio-inspired algorithms are best developed and analysed in the context of a multidis...
The paper concentrates on analyzing associative properties of Artificial Immune Systems, especially ...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
This thesis examines the use of immunological metaphors in building serial, parallel, and distribute...
mammalian immune system as a source of inspiration and metaphor for computational tasks. One avenue...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
This thesis presents novel multi-layered natural immune system (NIS) inspired algorithms in the doma...
The biological immune system is a robust, complex, adaptive system that defends the body from foreig...
The immune system is highly distributed, highly adaptive, self-organising in nature, maintains a mem...
The mammalian acquired immune system is a robust and powerful information processing system that dem...
The development of adaptive and intelligent computational methods is an important frontier in the fi...
This paper presents the inception and subsequent revisions of an immune-inspired supervised learning...
A Multi-Layered Immune Inspired Approach to Data Mining. Thomas Knight and Jon Timmis Computing Labo...
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
We propose that bio-inspired algorithms are best developed and analysed in the context of a multidis...
The paper concentrates on analyzing associative properties of Artificial Immune Systems, especially ...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...