The book outlines a pathway to the development of fusion of electromagnetic resonance and artificial intelligence which will dominate the world of communication engineering. Electromagnetic resonance is fundamental to all biomaterials. The authors explore the peculiarities of this typical resonance behaviour in the literatures and provide the key points where the research should direct. Biological antennas are inspiring designing of several electromagnetic devices. From biomimetic engineering to humanoid bots a revolution is undergoing. Authors include entire development in the form of a book along with their contribution to this field.
Les mer
The book outlines a pathway to the development of fusion of electromagnetic resonance and artificial intelligence which will dominate the world of communication engineering. The authors explore the peculiarities of this typical resonance behaviour in the literatures and provide the key points where the research should direct.
Les mer
Is Coronavirus pushing humanity towards an evolutionary jump as it did long back when it initiated making a brain.- Cloaking or invisibility is the foundation of highly intelligent bio-machinery: Why are computer circuits primitive.- Life is an engineering marvel of water: Its water that manages noise to synthesis life.- How to reverse engineer an organic human brain without using any chemicals.- The making of a humanoid bot using electromagnetic antenna and sensors.- Can we ever make a humanoid bot that runs by itself without any software.
Les mer
The book outlines a pathway to the development of fusion of electromagnetic resonance and artificial intelligence which will dominate the world of communication engineering. Electromagnetic resonance is fundamental to all biomaterials. The authors explore the peculiarities of this typical resonance behaviour in the literatures and provide the key points where the research should direct. Biological antennas are inspiring designing of several electromagnetic devices. From biomimetic engineering to humanoid bots a revolution is undergoing. Authors include entire development in the form of a book along with their contribution to this field.
Les mer
Outlines a pathway to the development of fusion of electromagnetic resonance and artificial intelligence Explores peculiarities of typical electromagnetic resonance behaviour of biomaterials in the literatures Serves as a reference resource for students, researchers and academicians
Les mer

Produktdetaljer

ISBN
9789811696794
Publisert
2023-02-03
Utgiver
Vendor
Springer Verlag, Singapore
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Biographical note

Pushpendra Singh is a research executive in International Institute of Invincible Rhythms (www.iioir.org). He has done his PhD jointly with Amity University and National Institute for Materials Science (NIMS), Japan in 2020. He has published 32 papers and currently developing worlds largest brain database “Lotus” (Large operational transhuman understanding system) in NIMS, Tsukuba, Japan. He has built humanoid bot and complete time crystal model for the human brain. 

Kanad Ray senior member, IEEE) received the M.Sc. degree in physics from Calcutta University and the Ph.D. degree in physics from Jadavpur University, West Bengal, India. He has been Professor of Physics and Electronics and Communication, and is presently working as Head of the Department of Physics, Amity School of Applied Sciences, Amity University Rajasthan (AUR), Jaipur, India. His current research areas of interest include cognition, communication, electromagneticfield theory, antenna and wave propagation, microwave, computational biology, and applied physics. He has been serving as Editor for various Springer book series. He was Associate Editor of the Journal of Integrative Neuroscience (The Netherlands: IOS Press). He has been Visiting Professor to UTM &UTeM, Malaysia, and Visiting Scientist to NIMS, Japan. He has established MOU with UTeM Malaysia, NIMS Japan, and the University of Montreal, Canada. He has visited several countries such as Netherlands, Turkey, China, Czechoslovakia, Russia, Portugal, Finland, Belgium, South Africa, Japan, Singapore, Thailand, and Malaysia for various academic missions. He has organized various conferences such as SoCPROS, SoCTA, ICOEVCI, and TCCE as General Chair and a steering committee member. 

Anirban Bandyopadhyay is a Principal Research Scientist at the National Institute for Materials Science (NIMS), Tsukuba, Japan. Ph.D. in Supramolecular Electronics at the Indian Association for the Cultivation of Science (IACS), Kolkata, 2005. 2005 to 2008 ICYS research fellow at the ICYS, NIMS, Japan, worked on the brain-like bio-processor. In 2008, joined as a permanent scientist at NIMS, working on the time crystal model of human brain and design-synthesis of brain-like organic jelly, written a book “Nanobrain: The making of an artificial brain from a time crystal”, 2020. From 2013 to 2014 he was a visiting scientist at the Massachusetts Institute of Technology (MIT), USA. Hitachi Science and Technology award 2010, Inamori Foundation award 2011–2012, Kurata Foundation Award, Inamori Foundation Fellow (2011–), and Sewa Society international member, Japan. Website: www.anirbanlab.ga email anirban.bandyo@gmail.com Blog www.nanobraintech.com