2009
DOI: 10.1186/1471-2202-10-s1-p49
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RTBiomanager: a software platform to expand the applications of real-time technology in neuroscience

Abstract: A grand challenge in Computational Neuroscience is the integration of data arising from experimental techniques and theoretical work that involves large regions of unconstrained parameter space. Neural systems have drift, adaptation and learning mechanisms that result in transient behavior. Many information-processing mechanisms take place in this nonstationary activity that extends over several spatial and temporal scales. Studying this type of activity requires the use of activity-dependent stimulation techn… Show more

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Cited by 20 publications
(13 citation statements)
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“…The employed digital pulse timestamping technique allows to achieve a measurement precision in the order of 1 µs, much higher than most ADC-based acquisition systems. Even though our project was programmed to a small reconfigurable device, almost a half of LEs were left free and can be filled to implement future experiments with real-time feedback [26].…”
Section: Discussionmentioning
confidence: 99%
“…The employed digital pulse timestamping technique allows to achieve a measurement precision in the order of 1 µs, much higher than most ADC-based acquisition systems. Even though our project was programmed to a small reconfigurable device, almost a half of LEs were left free and can be filled to implement future experiments with real-time feedback [26].…”
Section: Discussionmentioning
confidence: 99%
“…While closed-loop technology allows researchers to conduct online observation, control and interaction with neural elements, it also presents some drawbacks in its implementation. Some of these difficulties are related to the complexity of their experimental design, but also to the accomplishment of precise temporal restrictions, in the scale of milliseconds or lower, which often are required during data acquisition and stimulation in biological experiments (Christini et al, 1999;Muñiz et al, 2005Muñiz et al, , 2008Muñiz et al, , 2009). The capacity of a system to perform periodic tasks and respond to asynchronous external events in an strict time slot (neither sooner nor later) is known as real-time (Furht et al, 1991).…”
Section: Introductionmentioning
confidence: 99%
“…Some of them are hardwarebased (Franke et al, 2012;Tessadori et al, 2012;Müller et al, 2013;Desai et al, 2017). Several software tools have been designed, particularly for dynamic-clamp electrophysiology experiments, both following soft- (Pinto et al, 2001;Nowotny et al, 2006;Linaro et al, 2014;Ciliberti and Kloosterman, 2017;Hazan and Ziv, 2017) and hard real-time (Christini et al, 1999;Dorval et al, 2001;Muñiz et al, 2005Muñiz et al, , 2009Biró and Giugliano, 2015;Patel et al, 2017) approaches, using distinct platforms and RTOS, which have diverse purposes and architectures, hence presenting different advantages and disadvantages.…”
Section: Introductionmentioning
confidence: 99%
“…Os sinais foram gravados usando o software Dynamic Clamp (Muniz et al, 2005, Muniz et al, 2009, Chamorro et al, 2012 desenvolvido pelo Grupo de Neurocomputación Biológica (GNB) da Universidad Autónoma de Madrid, Espanha. Nesse aparato a separação entre pulsos do peixe e pulsos de estímulo é feita a posteriori.…”
Section: 32-para O Estudo De Gnathonemus Petersiiunclassified
“…Técnicas de estímulo bidirecionais dependentes da atividade do sistema vem sendo usadas em neurociência em experimentos de eletrofisiologia com o conceito de dynamic clamp desde a década de 40 (Marmont, 1949;Cole, 1955) até os dias de hoje Prinz et al, 2004;Muniz et al, 2005;Muniz et al, 2009;Rodrigues et al, 2011, Chamorro et al, 2012. O conceito clássico de dynamic clamp consistia de injeções de corrente dependentes da voltagem, em neurônios vivos, criando condutâncias artificiais.…”
Section: -Introduçãounclassified