@Article{MugnaineRBBFICLVSKB:2018:DeFeCo,
               author = "Mugnaine, Michele and Reis, Adriane S. and Borges, Fernando S. and 
                         Borges, Rafael R. and Ferrari, Fabiano A. S. and Iarosz, Kelly C. 
                         and Caldas, Ibere L. and Lameu, Ewandson Luiz and Viana, Ricardo 
                         L. and Szezech Junior, Jos{\'e} D. and Kurths, J{\"u}rgen and 
                         Batista, Antonio M.",
          affiliation = "{Universidade Estadual de Ponta Grossa} and {Universidade Federal 
                         do Paran{\'a} (UFPR)} and {Universidade Federal do ABC} and 
                         {Universidade Tecnol{\'o}gica Federal do Paran{\'a} (UTFPR)} and 
                         {Universidade Federal do Vale do Jequitinhonha e Macuri} and 
                         {Universidade de S{\~a}o Paulo (USP)} and {Universidade de 
                         S{\~a}o Paulo (USP)} and {Instituto Nacional de Pesquisas 
                         Espaciais (INPE)} and {Universidade Federal do Paran{\'a} (UFPR)} 
                         and {Universidade Estadual de Ponta Grossa} and {Humboldt 
                         University} and {Universidade Estadual de Ponta Grossa}",
                title = "Delayed feedback control of phase synchronisation in a neuronal 
                         network model",
              journal = "European Physical Journal: Special Topics",
                 year = "2018",
               volume = "227",
               number = "10/11",
                pages = "1151--1160",
                month = "Nov.",
             abstract = "The human cerebral cortex can be separated into cortical areas 
                         forming a clustered network structure. We build two different 
                         clustered networks, where one network is based on a healthy brain 
                         and the other according to a brain affected by a neurodegenerative 
                         process. Each cortical area has a subnetwork with small-world 
                         properties. We verify that both networks exhibit rich-club 
                         organisation and phase synchronisation. Due to the fact that 
                         neuronal synchronisation can be related to brain diseases, we 
                         consider the delayed feedback control as a method to suppress 
                         synchronous behaviours. In this work, it is presented that 
                         depending on the feedback parameters, intensity and time delay, 
                         phase synchronisation in both networks can be suppressed. 
                         Therefore, one of our main results is to show that delayed 
                         feedback control can be used to suppress undesired synchronous 
                         behaviours not only in the healthy brain, but also in the brain 
                         marked by neurodegenerative processes.",
                 issn = "1951-6355 and 1951-6401",
             language = "en",
           targetfile = "mugnaine_delayed.pdf",
        urlaccessdate = "27 abr. 2024"
}