This practical and highly-interactive course includes real-life case studies and exercises where participants will be engaged in a series of interactive small groups and class workshops. This course is designed to provide participants with a detailed and up-to-date overview of Integrated Petrophysics for Reservoir Characterization. It covers the basic petrophysical concepts and their relevance in reservoir characterization; the role of petrophysics in reservoir engineering including rock properties and their measurements; the log interpretation, core analysis and correlation with log data; the data acquisition techniques in petrophysics and advanced log interpretation techniques; the quantitative log analysis and calibration, shaly sand analysis and carbonate reservoir characterization; identifying and analyzing fractures using petrophysical data; and integrating petrophysical data with geological models. During this interactive course, participants will learn the reservoir heterogeneity and petrophysical models; the fluid saturation distribution; the capillary pressure analysis and applications; the techniques for mapping petrophysical parameters across the reservoir; the NMR (nuclear magnetic resonance) logging and interpretation, formation testing and pressure analysis; integrating production data with petrophysical analysis; the role of geomechanics aspects in petrophysics; the latest technologies in petrophysics; the uncertainties in petrophysical interpretation; the advanced reservoir characterization techniques, petrophysical analysis for unconventional reservoirs; and the simulation and modeling based on petrophysical data.