Found 2855 results
[ Author(Desc)] Title Type Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
Walther JH, Mezic I, Muller SD, Koumoutsakos P.  2004.  Transverse momentum micromixer optimization with evolution strategies. COMPUTERS & FLUIDS. 33:521-531.
Wang F-Y, Doyle, III FJ, Litster JD, Cameron IT, Sanders CFW, Poon JM-H, Stepanek F, Ramachandran R, Glaser T, Immanuel CD.  2009.  Experimental validation studies on a multi-dimensional and multi-scale population balance model of batch granulation. CHEMICAL ENGINEERING SCIENCE. 64:775-786.
Wang X, Simons S.  2015.  Ubiquitous Subdifferentials, r(L)-density and Maximal Monotonicity. SET-VALUED AND VARIATIONAL ANALYSIS. 23:631-642.
Wang F-Y, Doyle, III FJ, Litster JD, Cameron IT, Sanders CFW, Poon JM-H, Stepanek F, Ramachandran R, Glaser T, Immanuel CD.  2008.  Experimental studies on distributions of granule size, binder content and porosity in batch drum granulation: Inferences on process modelling requirements and process sensitivities. POWDER TECHNOLOGY. 188:89-101.
Ward JD, Doherty MF, MELLICHAMP DA.  2006.  Insight from economically optimal steady-state operating policies for dynamic plantwide control. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 45:1343-1353.
Ward JD, Doherty MF, MELLICHAMP DA.  2005.  Novel reactor temperature and recycle flow rate policies for optimal process operation in the plantwide context. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 44:6729-6740.
Ward JD, Doherty MF, MELLICHAMP DA.  2006.  Choosing an operating policy for seeded batch crystallization. AICHE JOURNAL. 52:2046-2054.
Ward JD, Doherty MF, MELLICHAMP DA.  2004.  Importance of process chemistry in selecting the operating policy for plants with recycle. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. 43:3957-3971.
Warrier D, Madhow U.  2002.  Spectrally efficient noncoherent communication. IEEE TRANSACTIONS ON INFORMATION THEORY. 48:651-668.
Whitesides GM, Stroock AD, Ajdari A, Mezic I, Stone HA, Dertinger SKW.  2002.  Chaotic mixer for microchannels. SCIENCE. 295:647-651.
Widmer L.A, Stelling J., Doyle, III F.J.  2013.  Note: Parameter-independent bounding of the stochastic Michaelis-Menten steady-state intrinsic noise variance. JOURNAL OF CHEMICAL PHYSICS. 139
Wilson D, Moehlis J.  2015.  Extending Phase Reduction to Excitable Media: Theory and Applications. SIAM REVIEW. 57:201-222.
Wilson D, Moehlis J.  2014.  Optimal Chaotic Desynchronization for Neural Populations. SIAM JOURNAL ON APPLIED DYNAMICAL SYSTEMS. 13:276-305.
Wilson D, Faramarzi S, Tinsley MR, Moehlis J, Snari R, Showalter K, Netoff TIvan.  2015.  Desynchronization of stochastically synchronized chemical oscillators. CHAOS. 25
Wilson D, Moehlis J.  2014.  A Hamilton-Jacobi-Bellman approach for termination of seizure-like bursting. JOURNAL OF COMPUTATIONAL NEUROSCIENCE. 37:345-355.
Wilson D, Moehlis J.  2016.  Toward a More Efficient Implementation of Antifibrillation Pacing. PLOS ONE. 11
Wilson D, Moehlis J.  2015.  Clustered Desynchronization from High-Frequency Deep Brain Stimulation. PLOS COMPUTATIONAL BIOLOGY. 11
Wilson D, Moehlis J.  2016.  Isostable reduction with applications to time-dependent partial differential equations. PHYSICAL REVIEW E. 94
Wilson D, Moehlis J.  2014.  Locally optimal extracellular stimulation for chaotic desynchronization of neural populations. JOURNAL OF COMPUTATIONAL NEUROSCIENCE. 37:243-257.
Wilson D, Moehlis J.  2017.  Spatiotemporal control to eliminate cardiac alternans using isostable reduction. PHYSICA D-NONLINEAR PHENOMENA. 342:32-44.
Wilson D, Moehlis J.  2016.  Analytical Bounds on the Critical Coupling Strength in a Population of Heterogeneous Biological Oscillators. Proceedings of the American Control Conference. :5772-5778.
Wilson D, Moehlis J.  2014.  An Energy-Optimal Methodology for Synchronization of Excitable Media. SIAM JOURNAL ON APPLIED DYNAMICAL SYSTEMS. 13:944-957.
Wilson D, Moehlis J.  2014.  An Energy-Optimal Approach for Entrainment of Uncertain Circadian Oscillators. BIOPHYSICAL JOURNAL. 107:1744-1755.
Wilson D, Moehlis J.  2015.  Determining individual phase response curves from aggregate population data. PHYSICAL REVIEW E. 92