Title :
Coordination dynamics: Bidirectional coupling between humans, machines and brains
Author :
Kelso, J. A. Scott ; Tognoli, Emmanuelle ; Dumas, Guillaume
Author_Institution :
Center for Complex Syst. & Brain Sci., Florida Atlantic Univ., Boca Raton, FL, USA
Abstract :
We describe the Human Dynamic Clamp or virtual partner interaction paradigm-itself inspired by cellular neuroscience-which allows humans to interact in real time with avatars driven by empirically verified models of biological coordination such as the HKB and Jirsa-Kelso Excitator models of rhythmic and discrete movement behavior. The Human Dynamic Clamp allows one to explore the parameter spaces of interactional dynamics in a variety of different contexts as well as to produce some surprising emergent effects, including the possibility of relating 1st and 3rd person descriptions and their neural correlates.
Keywords :
avatars; brain-computer interfaces; human computer interaction; HKB; Jirsa-Kelso excitator models; avatars; bidirectional coupling; biological coordination; cellular neuroscience; coordination dynamics; discrete movement behavior; human dynamic clamp; interactional dynamics parameter spaces; neural correlates; rhythmic behavior; virtual partner interaction paradigm; Adaptation models; Brain models; Clamps; Couplings; Mathematical model; Vehicle dynamics; Artificial Agent; Coordination Dynamics; Dynamic Clamp; Human-Machine Interface; Social Neuroscience;
Conference_Titel :
Systems, Man and Cybernetics (SMC), 2014 IEEE International Conference on
Conference_Location :
San Diego, CA
DOI :
10.1109/SMC.2014.6974258
