Jakarta, Indonesia
Graduate from UPN Veteran Yogyakarta -- have experience in Geophysics, specializing in seismic interpretation, subsurface imaging, and velocity modeling within Geology, Geophysics, and Reservoir (GGR) studies. Software: Paradigm, Petrel, Hampson-Russel, etc. I interpreted faults and horizons, created time–depth maps, and enhanced structural understanding to support reservoir evaluation and field development. This experience has strengthened my analytical thinking, technical accuracy, and collaboration skills within multidisciplinary project environments. I’m passionate about expanding my expertise into drilling and wellsite operations, where I can apply my geophysical background to real-time subsurface decision-making. I’m eager to gain hands-on experience in drilling processes, data acquisition, and formation evaluation while working in dynamic, technical environments. I’m motivated to keep learning, adapt quickly, and contribute to efficient and innovative operations that bridge geoscience and field execution.
• Interpreted faults and horizons from 3D seismic data using Epos Paradigm to identify key structural features and reservoir boundaries. • Built and refined velocity models to improve time–depth conversion accuracy, particularly in gas field settings. • Integrated seismic, well, and geological data to ensure consistent and reliable reservoir evaluation. • Performed Fault Seal Analysis (FSA) using Epos Paradigm and AspenTech SKUA-GOCAD. • Generated and analyzed Shale Gouge Ratio (SGR), juxtaposition, and displacement to assess fault sealing capacity. • Evaluated fault transmissibility, seal/leak potential, and hydrocarbon migration risks to support trap integrity analysis. • Applied strong analytical, data interpretation, and multidisciplinary collaboration skills in geoscience projects.
Conduct analysis 3D seismic and well logging data for determining prospect area oil and gas one of field in Kutai Basin. The research explain about comparing two methods from derivative elastic inversion which is Elastic Impedance and Extended Elastic Impedance, the research consist of: • conduct series of processing and interpretating data from conditioning seismic dan well log data, generate s-wave, well to seismic tie, interpretating horizon and fault, and inversion analysis • produce sensitive parameter (elastic), time structure map, isochrone, EI dan EEI distribution maps etc • the result such as comparison table from two methods inversion, prospect area and direction of fasies deposition
• teaching more than 100 students for basic physics such as theories and practical physics methods such as gravitation, electrical, massa, etc • explain correlation between simple physics methods and gophysical methods
For approximately one month doing practical work in the Seismic Data Processing (SDP) department at PT Elnusa Tbk, I increased my knowledge in the field of seismic data processing to improve good seismic data resolution. • Carry out a series of stages of processing land 2D seismic data as much as 1 pass starting from the reformatting stage to migration • perform quality control data to increase signal to ratio data so as to obtain high resolution using filters and corrections including pre-processing stages (Low Cut Filter, De-Spiking, Spherical Divergence Compensation, Adaptive Groundroll Attenuation, and Predictive Deconvolution), Velocity Analysis 1- 3, Pre-Conditioning (Surface Consistent Amplitudo Correction, Regularization 2D Data, FKFX Filter), Running Pre-stack Time Migration, and Post Processing (Radon Filter, FK2OFF, FK filter, Qwave, DIPEX and SPASM) • Perform data processing using CGG Geovation software including (Geodesk, JxJob, Onset, Expose, Khoros, Pace Setter etc.)