Francis Doyle
Francis Doyle
Verified email at
Cited by
Cited by
Process dynamics and control
DE Seborg, TF Edgar, DA Mellichamp, FJ Doyle
John Wiley & Sons, 2017
Robustness of cellular functions
J Stelling, U Sauer, Z Szallasi, FJ Doyle III, J Doyle
Cell 118 (6), 675-685, 2004
Clinical targets for continuous glucose monitoring data interpretation: recommendations from the international consensus on time in range
T Battelino, T Danne, RM Bergenstal, SA Amiel, R Beck, T Biester, E Bosi, ...
Diabetes care 42 (8), 1593-1603, 2019
International consensus on use of continuous glucose monitoring
T Danne, R Nimri, T Battelino, RM Bergenstal, KL Close, JH DeVries, ...
Diabetes care 40 (12), 1631-1640, 2017
Dynamic flux balance analysis of diauxic growth in Escherichia coli
R Mahadevan, JS Edwards, FJ Doyle III
Biophysical journal 83 (3), 1331-1340, 2002
A model-based algorithm for blood glucose control in type I diabetic patients
RS Parker, FJ Doyle, NA Peppas
IEEE Transactions on biomedical engineering 46 (2), 148-157, 1999
Survey on iterative learning control, repetitive control, and run-to-run control
Y Wang, F Gao, FJ Doyle III
Journal of Process Control 19 (10), 1589-1600, 2009
Intercellular coupling confers robustness against mutations in the SCN circadian clock network
AC Liu, DK Welsh, CH Ko, HG Tran, EE Zhang, AA Priest, ED Buhr, ...
Cell 129 (3), 605-616, 2007
Robust H glucose control in diabetes using a physiological model
RS Parker, FJ Doyle III, JH Ward, NA Peppas
AIChE Journal 46 (12), 2537-2549, 2000
Method and apparatus for glucose control and insulin dosing for diabetics
FJ Doyle III, L Jovanovic
US Patent 7,651,845, 2010
Identification and control using Volterra models
FJ Doyle, RK Pearson, BA Ogunnaike
Springer, 2002
Nonlinear model-based control using second-order Volterra models
FJ Doyle III, BA Ogunnaike, RK Pearson
Automatica 31 (5), 697-714, 1995
Identification of small molecule activators of cryptochrome
T Hirota, JW Lee, PCS John, M Sawa, K Iwaisako, T Noguchi, ...
Science 337 (6098), 1094-1097, 2012
Closed-loop artificial pancreas systems: engineering the algorithms
FJ Doyle, LM Huyett, JB Lee, HC Zisser, E Dassau
Diabetes care 37 (5), 1191-1197, 2014
Fully integrated artificial pancreas in type 1 diabetes: modular closed-loop glucose control maintains near normoglycemia
M Breton, A Farret, D Bruttomesso, S Anderson, L Magni, S Patek, ...
Diabetes 61 (9), 2230-2237, 2012
Robustness properties of circadian clock architectures
J Stelling, ED Gilles, FJ Doyle
Proceedings of the National Academy of Sciences 101 (36), 13210-13215, 2004
The intravenous route to blood glucose control
RS Parker, FJ Doyle, NA Peppas
IEEE Engineering in Medicine and Biology Magazine 20 (1), 65-73, 2001
Six-month randomized, multicenter trial of closed-loop control in type 1 diabetes
SA Brown, BP Kovatchev, D Raghinaru, JW Lum, BA Buckingham, ...
New England Journal of Medicine 381 (18), 1707-1717, 2019
A novel computational model of the circadian clock in Arabidopsis that incorporates PRR7 and PRR9
MN Zeilinger, EM Farré, SR Taylor, SA Kay, FJ Doyle III
Molecular Systems Biology 2 (1), 58, 2006
Nonlinear model predictive control of a simulated multivariable polymerization reactor using second-order Volterra models
BR Maner, FJ Doyle III, BA Ogunnaike, RK Pearson
Automatica 32 (9), 1285-1301, 1996
The system can't perform the operation now. Try again later.
Articles 1–20