Optimal Medium Voltage Grid Planning under Consideration of Dynamic Current Ratings of Underground Cables and E-Mobility. November 2022. [PUMA: Cables Consideration Current Dynamic E-Mobility Grid Medium Optimal Planning Ratings Underground Voltage and of under]
A Grid Reinforcement Approach for an optimized Planning of High-Voltage Distribution Grids under Consideration of Line Loading Indicators.. IET Renewable Power Generation, (16)9:1841-1852, July 2022. [PUMA: A Approach Consideration Distribution Grid Grids High-Voltage Indicators Line Loading Planning Reinforcement an for of optimized under]
A New Approach to Estimate Activation Energy of Oil-impregnated Pressboard Stressed under Switching Impulse at Different Temperatures.. IEEE Transactions on Dielectrics and Electrical Insulation, (28)4:1162-1170, August 2021. [PUMA: A Activation Approach Different Energy Estimate Impulse New Oil-impregnated Pressboard Stressed Switching Temperatures. at of to under]
Estimation of Moisture Content in Oil-immpregnated Pressboard through Analyzing Dielecric Response Current under Switching Impulse.. IEEE Transactions on Dielectrics and Electrical Insulation, (28)3:938-945, June 2021. [PUMA: Analyzing Content Current Dielecric Estimation Impulse. Moisture Oil-immpregnated Pressboard Response Switching in of through under]
Grid Reinforcement Method for High-Voltage Distribution Grids under Consideration of Performance Indices.. October 2021. [PUMA: Consideration Distribution Grid Grids High-Voltage Indices. Method Performance Reinforcement for of under]
Probabilistic Approach for Distribution Grid Planning under Consideration of Line Loading Indicators.. March 2021. [PUMA: Approach Consideration Distribution Grid Indicators. Line Loading Planning Probabilistic for of under]
Influence of Electrode Material on Conductivity Measurements under DC Stresses. 2014. [PUMA: Conductivity DC Electrode Influence Material Measurements Stresses of on under]
A Comparison of Three Image Fidelity Metrics of Different Computational Principles for JPEG2000 Compressed Abdomen CT Images. Medical Imaging, IEEE Transactions on, (29)8:1496-1503, August 2010. [PUMA: Abdominal;Reproducibility Compression;Humans;Image Computed Computer-Assisted;Observation;ROC Curve;Data Curve;Radiography, Nonparametric;Tomography, Processing, Results;Statistics, Under X-Ray analysis;CT;HDR-VDP;JPEG2000 biological coding;Computed coding;Medical coding;medical coefficients;abdomen;computed compression;MS-SSIM;PSNR;Spearman compression;diagnostic compression;image correlation diagnostic difference fidelity image imaging;Computed imaging;PSNR;Radiology;Transform metric;Adult;Area metrics;multiscale of organs;computerised predictor;image processing;sensitivity radiography;image range rank ratio;Abdomen;Biomedical science;Hospitals;Image signal-to-noise similarity;peak structural tomography;Computer tomography;JPEG2000;image tomography;data tomography;high-dynamic visual] URL
A Comparison of Three Image Fidelity Metrics of Different Computational Principles for JPEG2000 Compressed Abdomen CT Images. Medical Imaging, IEEE Transactions on, (29)8:1496-1503, August 2010. [PUMA: Abdominal;Reproducibility Compression;Humans;Image Computed Computer-Assisted;Observation;ROC Curve;Data Curve;Radiography, Nonparametric;Tomography, Processing, Results;Statistics, Under X-Ray analysis;CT;HDR-VDP;JPEG2000 biological coding;Computed coding;Medical coding;medical coefficients;abdomen;computed compression;MS-SSIM;PSNR;Spearman compression;diagnostic compression;image correlation diagnostic difference fidelity image imaging;Computed imaging;PSNR;Radiology;Transform metric;Adult;Area metrics;multiscale of organs;computerised predictor;image processing;sensitivity radiography;image range rank ratio;Abdomen;Biomedical science;Hospitals;Image signal-to-noise similarity;peak structural tomography;Computer tomography;JPEG2000;image tomography;data tomography;high-dynamic visual] URL