We propose that bio-inspired algorithms are best developed and analysed in the context of a multidisciplinary conceptual framework that provides for sophisticated biological models and well-founded analytical principles, and we outline such a framework here, in the context of AIS network models. We further propose ways to unify several domains into a common meta-framework, in the context of AIS population models. We finally hint at the possibility of a novel instantiation of such a meta-framework, thereby allowing the building of a specific computational framework that is inspired by biology, but not restricted to any one particular biological domain
Artificial immune systems (AIS) constitute a relatively new area of bio-inspired computing. Biologic...
AbstractArtificial immune systems (AIS) constitute a relatively new area of bio-inspired computing. ...
Artificial Immune Systems (AIS) is a diverse area of research that attempts to bridge the divide bet...
We propose that bio-inspired algorithms are best developed and analysed in the context of a multidis...
We propose that bio-inspired algorithms are best developed and analysed in the context of a multidis...
The human immune system has numerous properties that make it ripe for exploitation in the computatio...
Copyright © 2010 Academic Research Publishing Agency.This article has been made available through th...
Artificial immune systems (AISs) to date have generally been inspired by naive biological metaphors....
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
This thesis presents novel multi-layered natural immune system (NIS) inspired algorithms in the doma...
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
Artificial immune systems (AIS) can be defined as computational systems inspired by theoretical immu...
The advances of the artificial immune systems (AIS) and the increasing interest in the development o...
This position paper explores the nature and role of two bio-inspired paradigms, namely Artificial Im...
The immune system is highly distributed, highly adaptive, self-organising in nature, maintains a mem...
Artificial immune systems (AIS) constitute a relatively new area of bio-inspired computing. Biologic...
AbstractArtificial immune systems (AIS) constitute a relatively new area of bio-inspired computing. ...
Artificial Immune Systems (AIS) is a diverse area of research that attempts to bridge the divide bet...
We propose that bio-inspired algorithms are best developed and analysed in the context of a multidis...
We propose that bio-inspired algorithms are best developed and analysed in the context of a multidis...
The human immune system has numerous properties that make it ripe for exploitation in the computatio...
Copyright © 2010 Academic Research Publishing Agency.This article has been made available through th...
Artificial immune systems (AISs) to date have generally been inspired by naive biological metaphors....
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
This thesis presents novel multi-layered natural immune system (NIS) inspired algorithms in the doma...
Over the last few years, more and more heuristic decision making techniques have been inspired by na...
Artificial immune systems (AIS) can be defined as computational systems inspired by theoretical immu...
The advances of the artificial immune systems (AIS) and the increasing interest in the development o...
This position paper explores the nature and role of two bio-inspired paradigms, namely Artificial Im...
The immune system is highly distributed, highly adaptive, self-organising in nature, maintains a mem...
Artificial immune systems (AIS) constitute a relatively new area of bio-inspired computing. Biologic...
AbstractArtificial immune systems (AIS) constitute a relatively new area of bio-inspired computing. ...
Artificial Immune Systems (AIS) is a diverse area of research that attempts to bridge the divide bet...