Nina F. Thornhill
Nina F. Thornhill
Emeritus Professor of Process Automation, Imperial College London
Verified email at - Homepage
Cited by
Cited by
Modelling valve stiction
MAAS Choudhury, NF Thornhill, SL Shah
Control engineering practice 13 (5), 641-658, 2005
Diagnosis of poor control-loop performance using higher-order statistics
MAAS Choudhury, SL Shah, NF Thornhill
Automatica 40 (10), 1719-1728, 2004
Detection of multiple oscillations in control loops
NF Thornhill, B Huang, H Zhang
Journal of Process control 13 (1), 91-100, 2003
Finding the direction of disturbance propagation in a chemical process using transfer entropy
M Bauer, JW Cox, MH Caveness, JJ Downs, NF Thornhill
IEEE transactions on control systems technology 15 (1), 12-21, 2006
A continuous stirred tank heater simulation model with applications
NF Thornhill, SC Patwardhan, SL Shah
Journal of process control 18 (3-4), 347-360, 2008
Detection and diagnosis of oscillation in control loops
NF Thornhill, T Hägglund
Control Engineering Practice 5 (10), 1343-1354, 1997
Advances and new directions in plant-wide disturbance detection and diagnosis
NF Thornhill, A Horch
Control Engineering Practice 15 (10), 1196-1206, 2007
Automatic detection and quantification of stiction in control valves
MAAS Choudhury, SL Shah, NF Thornhill, DS Shook
Control engineering practice 14 (12), 1395-1412, 2006
Refinery-wide control loop performance assessment
NF Thornhill, M Oettinger, P Fedenczuk
Journal of Process Control 9 (2), 109-124, 1999
Coherency identification in power systems through principal component analysis
KK Anaparthi, B Chaudhuri, NF Thornhill, BC Pal
IEEE transactions on power systems 20 (3), 1658-1660, 2005
A dynamic mode decomposition framework for global power system oscillation analysis
E Barocio, BC Pal, NF Thornhill, AR Messina
IEEE Transactions on Power Systems 30 (6), 2902-2912, 2014
Spectral principal component analysis of dynamic process data
NF Thornhill, SL Shah, B Huang, A Vishnubhotla
Control Engineering Practice 10 (8), 833-846, 2002
Diagnosis of process nonlinearities and valve stiction: data driven approaches
AAS Choudhury, SL Shah, NF Thornhill
Springer Science & Business Media, 2008
A practical method for identifying the propagation path of plant-wide disturbances
M Bauer, NF Thornhill
Journal of process control 18 (7-8), 707-719, 2008
Diagnosis of plant-wide oscillation through data-driven analysis and process understanding
NF Thornhill, JW Cox, MA Paulonis
Control Engineering Practice 11 (12), 1481-1490, 2003
The current state of control loop performance monitoring–a survey of application in industry
M Bauer, A Horch, L Xie, M Jelali, N Thornhill
Journal of Process Control 38, 1-10, 2016
Estimation of dissolved carbon dioxide concentrations in aerobic fermentations
PNC Royce, NF Thornhill
AIChE journal 37 (11), 1680-1686, 1991
Finding the source of nonlinearity in a process with plant-wide oscillation
NF Thornhill
IEEE Transactions on Control Systems Technology 13 (3), 434-443, 2005
Comparison of three electromechanical oscillation damping estimation methods
J Turunen, J Thambirajah, M Larsson, BC Pal, NF Thornhill, LC Haarla, ...
IEEE Transactions on power systems 26 (4), 2398-2407, 2011
Cause-and-effect analysis in chemical processes utilizing XML, plant connectivity and quantitative process history
J Thambirajah, L Benabbas, M Bauer, NF Thornhill
Computers & Chemical Engineering 33 (2), 503-512, 2009
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