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@MastersThesis{Lopes:2018:CoRiCa,
               author = "Lopes, Thiago Ferreira",
                title = "Controle de ritmos card{\'{\i}}acos usando modelos 
                         matem{\'a}ticos",
               school = "Instituto Nacional de Pesquisas Espaciais (INPE)",
                 year = "2018",
              address = "S{\~a}o Jos{\'e} dos Campos",
                month = "2018-05-24",
             keywords = "controle de caos, modelo card{\'{\i}}aco, arritmias, 
                         fibrila{\c{c}}{\~a}o atrial, control of chaos, cardiac model, 
                         arrhyyhmias, atrial fibrillation.",
             abstract = "Em ambientes de microgravidade, como em esta{\c{c}}{\~o}es 
                         espaciais e no promissor ramo do turismo espacial, estudos indicam 
                         a altera{\c{c}}{\~a}o do comportamento card{\'{\i}}aco. Logo, 
                         pesquisas que visam melhorar as t{\'e}cnicas de monitoramento e 
                         controle de cardiopatologias tornam-se ainda mais valiosas, sendo, 
                         inclusive, diferencial para o sucesso de miss{\~o}es tripuladas. 
                         A disserta{\c{c}}{\~a}o em quest{\~a}o estuda um modelo 
                         matem{\'a}tico que simula a din{\^a}mica card{\'{\i}}aca 
                         humana que, de acordo com a escolha de par{\^a}metros, pode 
                         apresentar comportamento peri{\'o}dico (relativo a um sinal de 
                         Eletrocardiograma normal) ou ca{\'o}tico (relativo a um sinal de 
                         Eletrocardiograma indicativo de cardiopatia). Com o sistema em 
                         estado semelhante {\`a} fibrila{\c{c}}{\~a}o atrial, 
                         t{\'e}cnicas de controle foram testadas e uma nova foi 
                         desenvolvida. ABSTRACT: In microgravity environments, such as in 
                         space stations and in the promising field of space tourism, 
                         studies indicate the change in cardiac behavior. Therefore, 
                         research aimed at improving the techniques for monitoring and 
                         controlling cardiac diseases becomes even more valuable, and is 
                         also a differential for the success of manned missions. The 
                         dissertation in question studies a mathematical model that 
                         simulates human cardiac dynamics that, according to the choice of 
                         parameters, may present periodic behavior (relative to a normal 
                         Electrocardiogram signal) or chaotic (relative to an 
                         electrocardiogram signal indicative of cardiopathy). With the 
                         system in a state similar to atrial fibrillation, control 
                         techniques were tested and a new one was developed.",
            committee = "Castro, Joaquim Jos{\'e} Barroso de (presidente) and Macau, 
                         Elbert Einstein Nehrer (orientador) and Yoneyama, Takashi 
                         (orientador) and Rodrigues, Rita de C{\'a}ssia Meneses and Godoy, 
                         Moacir Fernandes de and Savi, Marcelo Amorim",
         englishtitle = "Control of heart rhythms using mathematical models",
             language = "pt",
                pages = "150",
                  ibi = "8JMKD3MGP3W34R/3R4D6TS",
                  url = "http://urlib.net/rep/8JMKD3MGP3W34R/3R4D6TS",
           targetfile = "publicacao.pdf",
        urlaccessdate = "24 nov. 2020"
}


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