The mammalian immune system is a highly complex, inherently parallel, distributed system. The field of Artificial Immune Systems (AIS) has developed a wide variety of algorithms inspired by the immune system, few of which appear to capitalize on the parallel nature of the system from which inspiration was taken. The work in this paper presents the first steps at realizing a parallel artificial immune system for classification. A simple parallel version of the classification algorithm Artificial Immune Recognition System (AIRS) is presented. Initial results indicate that a decrease in overall runtime can be achieved through fairly naïve techniques. The need for more theoretical models of the behavior of the algorithm is discussed.</p
In this paper, we have presented a survey on Pattern Recognition technique using a new computational...
This chapter introduces a new computational intelligence paradigm to perform pattern recognition, na...
This paper presents a new tool for supervised learning, modeled on resource limited Artificial Immun...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
The natural immune system is a robust and powerful information process system that demonstrates feat...
The natural immune system embodies a wealth of information processing capabilities that can be explo...
This paper presents the inception and subsequent revisions of an immune-inspired supervised learning...
mammalian immune system as a source of inspiration and metaphor for computational tasks. One avenue...
The last two decades has seen a rapid increase in the application of AIS (Artificial Immune Systems)...
Artificial Immune Recognition System (AIRS) algorithm offers a promising methodology for data classi...
This paper presents the inception and subsequent revisions of an immuneinspired supervised learning ...
Abstract—Biological models of the natural immune system have provided the inspiration for artificial...
This paper presents the inception and subsequent revisions of an immune-inspired supervised learning...
This chapter introduces a new computational intelligence paradigm to perform pattern recognition, na...
In this paper, we have presented a survey on Pattern Recognition technique using a new computational...
This chapter introduces a new computational intelligence paradigm to perform pattern recognition, na...
This paper presents a new tool for supervised learning, modeled on resource limited Artificial Immun...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
The mammalian immune system is a highly complex, inherently parallel, distributed system. The field ...
The natural immune system is a robust and powerful information process system that demonstrates feat...
The natural immune system embodies a wealth of information processing capabilities that can be explo...
This paper presents the inception and subsequent revisions of an immune-inspired supervised learning...
mammalian immune system as a source of inspiration and metaphor for computational tasks. One avenue...
The last two decades has seen a rapid increase in the application of AIS (Artificial Immune Systems)...
Artificial Immune Recognition System (AIRS) algorithm offers a promising methodology for data classi...
This paper presents the inception and subsequent revisions of an immuneinspired supervised learning ...
Abstract—Biological models of the natural immune system have provided the inspiration for artificial...
This paper presents the inception and subsequent revisions of an immune-inspired supervised learning...
This chapter introduces a new computational intelligence paradigm to perform pattern recognition, na...
In this paper, we have presented a survey on Pattern Recognition technique using a new computational...
This chapter introduces a new computational intelligence paradigm to perform pattern recognition, na...
This paper presents a new tool for supervised learning, modeled on resource limited Artificial Immun...