Princeton University Press / Neural Networks / MIT Press / J. L. P. / Dynamic Biological Networks / /
Country
United States / /
Currency
pence / / /
Facility
AB/PD complex / State University Health Sciences Center / Georgia Institute of Technology / Emory University / /
IndustryTerm
experimental protocol / oscillatory networks / coupled / intact network / stationary neurobiological systems / model systems / model networks / photoinactivation protocols / spPRC measurement protocol / biological network / tool / pyloric network / online protocol / physical systems / /
Organization
National Institute of Health / Department of Biomedical Engineering / State University Health Sciences Center / MIT / Georgia Institute of Technology / Department of Cell Biology and Anatomy / Neuroscience Center for Excellence / Department of Biology / Princeton University / Emory University / Atlanta / Department of Ophthalmology / Group of Eight / /
Person
Fred H. Sieling / M. Dhamala / V / Michael Nusbaum / Dawn Blitz / Santiago Archila / /
Position
Model systems In / /
ProvinceOrState
New Jersey / Louisiana / New York / Georgia / Massachusetts / /
PHYSICAL REVIEW E 85, Phase response theory extended to nonoscillatory network components Fred H. Sieling,1,2,* Santiago Archila,2 Ryan Hooper,1,2 Carmen C. Canavier,3 and Astrid A. Prinz2 1