238 pages | 8 Color Illus. | 120 B/W Illus.
Many advances have been made in the last decade in the understanding of the computational principles underlying olfactory system functioning. Neuromorphic Olfaction is a collaboration among European researchers who, through NEUROCHEM (Fp7-Grant Agreement Number 216916)—a challenging and innovative European-funded project—introduce novel computing paradigms and biomimetic artifacts for chemical sensing. The implications of these findings are relevant to a wide audience, including researchers in artifical olfaction, neuroscientists, physiologists, and scientists working with chemical sensors.
Developing neuromorphic olfaction from conceptual points of view to practical applications, this cross-disciplinary book examines:
The book’s primary focus is on translating aspects of olfaction into computationally practical algorithms. These algorithms can help us understand the underlying behavior of the chemical senses in biological systems. They can also be translated into practical applications, such as robotic navigation and systems for uniquely detecting chemical species in a complex background.
Engineering Aspects of Olfaction; Krishna C. Persaud
Study of the Coding Efficiency of Populations of Olfactory
Receptor Neurons and Olfactory Glomeruli; Agustín Gutiérrez-Gálvez and Santiago Marco
Mimicking Biological Olfaction with Very Large Chemical
Arrays; Mara Bernabei, Romeo Beccherelli, Emiliano Zampetti,
Simone Pantalei, and Krishna C. Persaud
The Synthetic Moth: A Neuromorphic Approach toward
Artificial Olfaction in Robots; Vasiliki Vouloutsi, Lucas L. Lopez-Serrano,Zenon Mathews, Alex Escuredo Chimeno, Andrey Ziyatdinov, Alexandre Perera i Lluna, Sergi Bermúdez i Badia, and Paul F. M. J. Verschure
Reactive and Cognitive Search Strategies for Olfactory Robots; Dominique Martinez and Eduardo Martin Moraud
Performance of a Computational Model of the Mammalian
Olfactory System; Simon Benjaminsson, Pawel Herman, and Anders Lansner