PUMA publications for /tag/functionWed Jun 15 11:26:56 CEST 2022Journal of Molecular Structure1-3133--138High-frequency EPR and structural data as complementary information on stable radical complexes containing the semi-reduced azo function8902008ESR azo coupling electronic function orbit radical spin structure Dinuclear metal compds. [(LnM)(\textgreek{m}-BL·-)(MLn)]k involving radical anions of bridging ligands BL such as 2,2'-azobispyridine or 3,6-bis(2-pyridyl)-1,2,4,5-tetrazine and coordinated inorg. or organometallic complex fragments MLn contg. copper(I), rhenium(I), ruthenium(II), osmium(II), rhodium(III) or iridium(III) were studied in frozen solns. using high field EPR spectroscopy at W band (95 GHz) or higher frequencies. The generally small but still rather variable anisotropy of the g factor shows typical patterns reflecting the specific metal/ligand interactions, the competition between bridging and ancillary ligands for spin d., and the spin-orbit coupling consts. of the metals. The EPR data thus specify the structural data as obtained from x-ray crystallog. for a std. series of diphosphinocopper(I) complexes involving the radical ligands indicated. The (RNNR)·- group can be placed next to the related superoxide (OO)·- as a paramagnetic ligand with specific geometrical and electronic structure. [on SciFinder(R)]Mon Feb 14 14:42:01 CET 2022Measurement1110292Sensitivity analysis of different components of transfer function for detection and classification of type, location and extent of transformer faults.1872021Sensitivity analysis and classification components detection different extent faults. for function location of transfer transformer type, Wed Aug 26 14:45:20 CEST 2020A New Method of Emission Measurement2002Emission curve domain fourier function measurement pulse response time transform window Thu Aug 13 14:38:45 CEST 2020Asset Management Based on Improved Online Monitoring Systems Applied to a 110/380 kV Substation 2003Acoustic Asset-Management Electric Hot-spot Managementdecision-making PD Power Transfer discharge function monitoring online partial system temperature Thu Aug 13 14:34:19 CEST 2020Reproducibility of Transfer Function Results2003Function Reproducibility Results Transfer Wed Aug 12 15:26:40 CEST 2020IEEE Transactions on Power DeliveryApril2493-505Transfer Function Method to Diagnose Axial Displacement and Radial Deformation of Transformer Windings 182003Diagnose displacements function mechanical modeling transfer transformer windings Mon Aug 10 14:01:25 CEST 2020Calculation of the Transfer Function of a Power Transformer with Online Measuring Data2004(TF) function measurement online overvoltages transfer transformer transient Mon Aug 10 13:51:59 CEST 2020IEEE Transactions on Power Delivery1214-220Procedures for Detecting Winding Displacements in Power Transformers by the Transfer Function Method152004Detecting Displacements Function Method Power Transfer Transformers Winding Tue Jul 21 13:35:28 CEST 2020European Transactions on Electrical Power (ETEP)2137-146Comparability of transfer function results.162006Comparability function results transfer Mon Jul 13 14:10:32 CEST 2020A Mathematical Model to Investigate Disc Space Variation in Power Transformer using Transfer Function Analysis 2007Analysis Disc Function Power Space Transfer Transformer Variation Wed Jul 08 16:09:06 CEST 20201-5A Fast Radiated Emission Model for Arbitrary Cable Harness Configurations Based on Measurements and Simulations2008Cable component emc function functional harness radiation simulation transfer Mon Jun 29 14:54:28 CEST 2020European Transactions on Electrical Power (ETEP)July5749–762Localization of Winding Radial Deformation and Determination of Deformation Extent using Vector Fitting-based Estimated Transfer Function192009Deformation Determination Estimated Extent Fitting-based Function Localization Radial Transfer Vector Winding Mon Jun 29 14:51:16 CEST 2020Determining of Pole-Zero Representations of FRA Measurement Data for Interpretation of Power Transformer Transfer Function Deviations2009Data Deviations FRA Function Measurement Pole-Zero Power Representations Transfer Transformer Wed Jun 24 14:34:53 CEST 2020Transformer Modelling Based On Frequency Response Measurements For Winding Failure Detection2010Analysis Fitting Frequency Function High Modeling Power Reponse Resonance Transfer Transformer Transient Vector Tue Jun 23 15:23:23 CEST 2020IET Electr. Power Appl.July6451-461Experimental and Theoretical Investigation of Disc Space Variation in real High- Voltage Windings using Transfer Function Method42010Disc Function High- Method Space Transfer Variation Voltage Windings real Mon Jun 15 14:32:17 CEST 2020Archives of Electrical EngineeringSeptember3269-281Fault Diagnosis of Actual Large-Power High-Voltage Windings using Transfer Function Method602011Actual Diagnosis Fault Function High-Voltage Large-Power Method Transfer Windings Mon May 25 13:40:48 CEST 2020COMPEL, The international journal for computation and mathematics in electrical and electronics engineering, Special section: selected papers from the 4th International Conference on Electromagnetic Fields, Health and Environment1277-1293Estimation of simulated transfer function to discriminate axial displacement and radial deformation of transformer winding2012axial deformation displacement function radial simulated transfer transformer winding Mon May 18 14:12:20 CEST 2020Probabilistische Lastmodellierung von Haushaltslasten2012Energy Load Parameter Power Probability computing consumption demand density distribution engineering estimation flow function modeling Mon Apr 20 14:36:54 CEST 2020IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITYjun3311-321Radiated Emissions of an Electric Drive System Estimated on a Bench Using Disturbance Currents and Transfer FunctionsArticle572015(HV) 25 Bench CISPR Currents Disturbance Drive Electric Emissions Estimated Functionssend:unibiblio Radiated Systemautomotive Transfer Using a an and distributed drive electric emission estimation function high-voltage inverter of on power precompliance radiated system transfer Tue Feb 25 11:17:44 CET 2020Science of The Total Environment137354Characterization of the hydro-geological regime of Yangtze River basin using remotely-sensed and modeled products2020GRACE, Groundwater, Mascon, PCA, Quantile Surface function geoinst of storage, water The hydrology of the Third Pole, Asia’s freshwater tower, has shown considerable sensitivity to the impacts of climate change and human interventions, which affect the headwaters of many rivers that originate therein. For example, the Yangtze River has its basin (YRB) experiencing wetness of terrestrial water storage (TWS), which rainfall seems to be the primary source as inferred from the previous studies. Consequently, it is crucial to understand the contributions of each TWS’s sub-domain - i.e., groundwater (GWS); total water content (TWC) stored as soil moisture, ice/snow, and canopy; and the surface water (SWS) storages - on YRB’s wetness. Hence, SWS, from altimetry and imagery satellites, and TWC, from Global Land Data Assimilation System, are inverted considering the same basis function as for TWS from the Gravity Recovery and Climate Experiment, which account for the differences in the resolutions inherent in each product. Furthermore, a “tie-in” signal approach is used to fit the temporal patterns of GWS, TWC, and SWS to TWS (i.e., the observations). Results show improvements in the reconstructed GWS series concerning standard deviation, correlation coefficient, and Nash–Sutcliffe efficiency of 22%, 27%, and 120%, respectively, regarding the use of the TWS-budget equation. The reconstructed time series of GWS, TWC, and SWS present an increase of 1.76, 2.69, and 0.14 mm per year (mm/yr) and that YRB loses water stored at its aquifers 55% of the time (regarding 2003-2016 period) based on the quantile function of storage (QFS). The QFS’s slope shows that TWS has a fast and small storage potential w.r.t. GWS since inland waters and soil moisture reflect the dryness impacting TWS first. Despite the evidence of an increase of 19.05 mm/yr in annual precipitation, which seems to explain the bulk in TWS, further investigation to characterize controls on TWS memory within YRB still necessary.functionCommunity for tag(s) function