In collaborative self-organizing computing systems a complex task is performed by relatively simple autonomous agents that act without centralized control. Disruption of a task can be caused by agents that produce harmful outputs due to internal failures or due to maliciously introduced alterations of their functions. The probability of such harmful outputs is minimized by the application of a design principle called ”the immune system paradigm” that provides individual agents with an all-hardware fault tolerance infrastructure. The paradigm and its application are described in this paper.1st IFIP International Conference on Biologically Inspired Cooperative Computing - Biological Inspiration: Just a dream?Red de Universidades con Carreras ...
We describe a framework for developing autonomic computing systems, based on an analogy with the nat...
Nature demonstrates amazing levels of fault tolerance; animals can survive injury, damage, wear and ...
Many electronic systems would benefit from the inclusion of self-regulatory mechanisms. We strive to...
In collaborative self-organizing computing systems a complex task is performed by relatively simple ...
The immune system is a remarkable natural system that is proving to be of great inspiration to compu...
A novel approach to hardware fault tolerance is demonstrated that takes inspiration from the human i...
The immune system is a remarkable natural system that is proving to be of great inspiration to compu...
Nowadays, many of the manufactory and industrial system has a diagnosis system on top of it, respons...
Autonomic computing systems of the future will be required to exhibit a number of properties which c...
Since the advent of computers numerous approaches have been taken to create hardware systems that pr...
Artificial Immune Systems (AIS) [1] include algorithms and systems that use the human immune system ...
Biological systems have become highly significant for traditional computer architectures as examples...
Distributed autonomous systems consisting of large numbers of components with no central control poi...
The human immune system is a complex system of cells, molecules, tissues, and diverse organs that ca...
Abstract. This paper describes the human immune system and its functionalities from a computational ...
We describe a framework for developing autonomic computing systems, based on an analogy with the nat...
Nature demonstrates amazing levels of fault tolerance; animals can survive injury, damage, wear and ...
Many electronic systems would benefit from the inclusion of self-regulatory mechanisms. We strive to...
In collaborative self-organizing computing systems a complex task is performed by relatively simple ...
The immune system is a remarkable natural system that is proving to be of great inspiration to compu...
A novel approach to hardware fault tolerance is demonstrated that takes inspiration from the human i...
The immune system is a remarkable natural system that is proving to be of great inspiration to compu...
Nowadays, many of the manufactory and industrial system has a diagnosis system on top of it, respons...
Autonomic computing systems of the future will be required to exhibit a number of properties which c...
Since the advent of computers numerous approaches have been taken to create hardware systems that pr...
Artificial Immune Systems (AIS) [1] include algorithms and systems that use the human immune system ...
Biological systems have become highly significant for traditional computer architectures as examples...
Distributed autonomous systems consisting of large numbers of components with no central control poi...
The human immune system is a complex system of cells, molecules, tissues, and diverse organs that ca...
Abstract. This paper describes the human immune system and its functionalities from a computational ...
We describe a framework for developing autonomic computing systems, based on an analogy with the nat...
Nature demonstrates amazing levels of fault tolerance; animals can survive injury, damage, wear and ...
Many electronic systems would benefit from the inclusion of self-regulatory mechanisms. We strive to...