ÌìÃÀ´«Ã½

Clustering methods - Cause-and-effect diagnosis - Root-cause diagnosis - Nonlinearity analysis - Signal entropy methods - Oscillation detection and diagnosis - Phase coherency analysis - Principal component analysis - Independent component analysis - Spectral analysis - Higher order statistical analysis - Valve stiction modelling and diagnosis

Dynamic signal analysis is our primary specialty. The methods achieve dramatic insights into the way that an operating process is performing, from oil and gas platforms though supply chains to electrical power transmission systems.

An underpinning theme is plant-wide, site-wide and system-wide diagnosis. The aim is to build a global picture using data from local measurements and track down the causes of propagating disturbances.

Sticking valves, a common cause of plant-wide disturbances, can now be easily diagnosed thanks to ideas developed in collaboration with the University of Alberta over the past few years. Now we are seeking to trace the sources of disturbances and inefficiencies that originate in other plant sub-systems particularly in rotating machinery such as compressors and pumps and the motors which drive them.

Selected publications

• , A practical method for identifying the propagation path of plant-wide disturbances, Journal of Process Control, 18, 707-719.
• , Nearest neighbors methods for root cause analysis of processes with plant-wide disturbances, Industrial Engineering and Chemistry Research, 46, 5977-5984.
• , Finding the direction of disturbance propagation in a chemical process using transfer entropy, IEEE Transactions on Control System Technology, 15, 12-21.
• , Advances and new directions in plant-wide disturbance detection and diagnosis, Control Engineering Practice, 15, 1196-1206.
• , Multi-dimensional visualization and clustering of historical process data, Industrial Engineering and Chemistry Research, 45, 5971-5985.
• , An exploratory study to identify rogue seasonality in a steel company's supply network using spectral principal component analysis, European Journal of Operational Research, 172, 146-162.
• , Finding the source of nonlinearity in a process with plant-wide oscillation, IEEE Transactions on Control System Technology, 13, 434-443.
• , Detecting and isolating multiple plant-wide oscillations via spectral independent component analysis, Automatica, 41, 2067-2075.
• Diagnosis of plant-wide oscillation through data-driven analysis and process understanding, Control Engineering Practice, 11, 1481-1490.
• Detection of multiple oscillations in control loops, Journal of Process Control, 13, 91-100.
• , Spectral principal component analysis of dynamic process data, Control Engineering Practice, 10, 833-846.

Book

• , Diagnosis of Process Nonlinearities and Valve Stiction: Data Driven Approaches, Springer, ISBN: 978-3-540-79223-9.