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 Carbonate & Fractured Reservoirs. It covers the characteristics, importance and global distribution of carbonate and fractured reservoirs; the geological characteristics of carbonate reservoirs; the types, formation mechanisms and impacts of fractured reservoirs; and the petrophysical properties of carbonate rocks. Further, the course will also discuss the basic tools and techniques in petrophysical analysis; the challenges in petrophysical evaluation of carbonate and fractured reservoirs; the log interpretation in carbonate settings, advanced logging tools applicable to carbonates and quantitative evaluation of porosity and permeability; and the fluid typing and saturation analysis and integration of core and log data and characterizing fractures. 
 During this interactive course, participants will learn the petrophysical modeling of fractured reservoirs; the fracture porosity and permeability estimation; the role of geomechanics in understanding fractured reservoirs; the well test interpretation in fractured reservoirs; the integrated geological models, reservoir characterization and zonation; upscaling petrophysical data for reservoir simulation; the uncertainty analysis in petrophysical interpretation; the advanced software tools and techniques and field development strategies for carbonate and fractured reservoirs; the enhanced oil recovery (EOR) in complex reservoirs and carbon capture and storage (CCS) in carbonates and fractures; and the emerging technologies and innovations in petrophysics and best practices and workflow optimization.