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111 2 $aColoquio Latinoamericano de Álgebra$n<15th ;$d2003 ;$cCocoyoc, México>$0622906
245 10$aAlgebraic structures and their representations :$bXV Coloquio Latinoamericano de Álgebra, Cocoyoc, Morelos, México, July 20-26, 2003 /$cJosé A. de la Peña, Ernesto Vallejo, Natig Atakishiyev, editors
260   $aProvidence, R. I. :$bAmerican Mathematical Society,$cc2005
300   $axxv, 436 p. ;$c26 cm
440  0$aContemporary mathematics,$x0271-4132 ;$v376
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650  0$aOrdered algebraic structures$vCongresses
650  0$aRepresentations of graphs$vCongresses
650  0$aRings (Algebra)$vCongresses
650  0$aAlgebra$vCongresses
700 1 $aPeña, José Antonio de la
700 1 $aVallejo, Ernesto
700 1 $aAtakishiyev, Natig M.
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035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/43414
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101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aClosed-Loop Systems for Next-Generation Neuroprostheses
210   $cFrontiers Media SA$d2018
215   $a1 online resource (326 p.)
225 1 $aFrontiers Research Topics
311 08$a2-88945-466-5 
330   $aMillions of people worldwide are affected by neurological disorders which disrupt the connections within the brain and between brain and body causing impairments of primary functions and paralysis. Such a number is likely to increase in the next years and current assistive technology is yet limited. A possible response to such disabilities, offered by the neuroscience community, is given by Brain-Machine Interfaces (BMIs) and neuroprostheses. The latter field of research is highly multidisciplinary, since it involves very different and disperse scientific communities, making it fundamental to create connections and to join research efforts. Indeed, the design and development of neuroprosthetic devices span/involve different research topics such as: interfacing of neural systems at different levels of architectural complexity (from in vitro neuronal ensembles to human brain), bio-artificial interfaces for stimulation (e.g. micro-stimulation, DBS: Deep Brain Stimulation) and recording (e.g. EMG: Electromyography, EEG: Electroencephalography, LFP: Local Field Potential), innovative signal processing tools for coding and decoding of neural activity, biomimetic artificial Spiking Neural Networks (SNN) and neural network modeling. In order to develop functional communication with the nervous system and to create a new generation of neuroprostheses, the study of closed-loop systems is mandatory. It has been widely recognized that closed-loop neuroprosthetic systems achieve more favorable outcomes for users then equivalent open-loop devices. Improvements in task performance, usability, and embodiment have all been reported in systems utilizing some form of feedback. The bi-directional communication between living neurons and artificial devices is the main final goal of those studies. However, closed-loop systems are still uncommon in the literature, mostly due to requirement of multidisciplinary effort. Therefore, through eBook on closed-loop systems for next-generation neuroprostheses, we encourage an active discussion among neurobiologists, electrophysiologists, bioengineers, computational neuroscientists and neuromorphic engineers. This eBook aims to facilitate this process by ordering the 25 contributions of this research in which we highlighted in three different parts: (A) Optimization of different blocks composing the closed-loop system, (B) Systems for neuromodulation based on DBS, EMG and SNN and (C) Closed-loop BMIs for rehabilitation.
606   $aMedicine$2bicssc
610   $aartificial spiking neural network
610   $aclosed-loop experiments
610   $aneuromodulation
610   $aneuronal circuits
610   $aneuroprostheses
610   $astimulation
615  7$aMedicine
700   $aTimothee Levi$4auth$01329311
702   $aPaolo Bonifazi$4auth
702   $aPaolo Massobrio$4auth
702   $aMichela Chiappalone$4auth
906   $aBOOK
912   $a9910346737903321
996   $aClosed-Loop Systems for Next-Generation Neuroprostheses$93039412
997   $aUNINA