L
Leandro Nunes de Castro
Researcher at Mackenzie Presbyterian University
Publications - 150
Citations - 5532
Leandro Nunes de Castro is an academic researcher from Mackenzie Presbyterian University. The author has contributed to research in topics: Cluster analysis & Artificial immune system. The author has an hindex of 30, co-authored 143 publications receiving 5248 citations. Previous affiliations of Leandro Nunes de Castro include State University of Campinas & Universidade Católica de Santos.
Papers
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Book
Artificial Immune Systems: A New Computational Intelligence Approach
TL;DR: The AIS in Context with Other Computational Intelligence Paradigms and Case Studies shows how the immune system in context with other biological systems and other paradigms has changed since the 1970s.
Book ChapterDOI
aiNet: An Artificial Immune Network for Data Analysis
TL;DR: This chapter shows that some of the basic aspects of the natural immune system discussed in the previous chapter can be used to propose a novel artificial immune network model with the main goals of clustering and filtering crude data sets described by high-dimensional samples.
Journal ArticleDOI
Fundamentals of natural computing: an overview
TL;DR: This paper provides an overview of the fundamentals of natural computing, particularly the fields listed above, emphasizing the biological motivation, some design principles, their scope of applications, current research trends and open problems.
Book
Fundamentals Of Natural Computing: Basic Concepts, Algorithms, And Applications
TL;DR: Conceptualization Evolutionary Computing Neurocomputing Swarm Intelligence Immunocomputing Fractal Geometry of Nature Artificial Life DNA Computing Quantum Computing Index *All Chapters contain an Introduction, Summaries, Discussions, Exercises, and References.
MonographDOI
Recent Developments In Biologically Inspired Computing
TL;DR: This book covers the most relevant areas in computational intelligence, including evolutionary algorithms, artificial neural networks, artificial immune systems and swarm systems, and brings together novel and philosophical trends in the exciting fields of artificial life and robotics.