Towards Objective Interpretation of Frequency Response of Power Transformers. 2019. [PUMA: Frequency Interpretation Objective Power Response Towards Transformers]
Improved Moisture Analysis of PowerTtransformers Using Dielectric Response Methods. 2007. [PUMA: FDS PDC Power aging currents depolarisation dielectric domain frequency methods moisture polarisation response spectroscopy transformers] URL
Experiences with the practical application of sweep frequency response analysis (SFRA) on power transformers. 2009. [PUMA: (SFRA) analysis frequency power response sweep transformers]
Moisture Diagnostics of Power Transformers by a Fast and Reliable Dielectric Response Method. 2010. [PUMA: Diagnostics Dielectric Fast Method Moisture Power Reliable Response Transformers and]
Monitoring of the Drying Process of Power Transformers Using Dielectric Response Analysis. 2011. [PUMA: Analysis Dielectric Drying Monitoring Power Process Response Transformers Using]
Evaluation of Numerical Indices for Objective Interpretation of Frequency Response to detect Mechanical Faults in Power Transformers. 811-824, 2019. [PUMA: Faults Frequency Indices Mechanical Numerical Power Response Transformers]
Influence of Employing Different Measuring Systems on Measurement Repeatability in Frequency Response Analysis of Power Transformers. IEEE Transactions on Dielectrics and Electrical Insulation, (35)2:27-33, April 2019. [PUMA: Analysis Different Frequency Measurement Measuring Power Repeatability Response Systems Transformers]