Our staff has broad experience with every aspect of 
the exploration cycle, including seismic acquisition preplanning and field optimization, 2D/3D/4D single and multi-component seismic data processing, as well as more specialized/advanced services such as velocity modeling, prestack time/depth migration, seismic inversion and integrated reservoir modeling/characterization.  In addition to having in-depth knowledge of conventional exploration methods using mainstream industry-standard software tools, we also have our own proprietary tools developed by an experienced programming/scripting staff, all ensuring that we can provide a solution for, and fast turnaround of, your project.    
  • Seismic data acquisition:  2D/3D preplanning, field operations optimization, experience with cable and wireless systems, analog and digital, conventional and multi-component exploration.  Comprehensive geocellular velocity modeling utilizing a priori information coupled with ray tracing, GIS information and defined exclusion zones helps to plan the survey close to the field reality, while addressing imaging objectives and, therefore, reducing cycle time and cost.
  • Field supervision and QC processing:  we provide software (SeiswinQC) and skilled personnel for crew startup, pre-acquisition source and receiver configuration tests and in-field QC and data processing. Experienced with all cable and node distributed wireless seismic acquisition systems, including hybrid source and receiver configurations.
  • Seismic data processing:  we process 2D and 3D surveys, utilizing a full arsenal of mainstream and proprietary processing tools including specialized and advanced imaging tools for prestack time and depth migration, accounting for seismic anisotropy and velocity modeling.  Expert 4D and time-lapse processing with demonstrated careful approach to cross-equalization.
  • Multi-component seismic data processing:  converted wave (3C) and pure mode (9C).
  • Interactive Statics Technology (IST)this powerful and unique system solves difficult statics problems where conventional statics methodologies fail, leading to a dramatically improved seismic image.  It has proven to work all over the world for all types of difficult near-surface conditions.  We leverage the power of IST within our Dynamic Statics Processing (DSP) workflow to provide a superior result when statics ruin your image of the subsurface.
  • Reservoir-Scale Velocity Modeling (RSVM):  proven technology for careful time-to-depth conversion utilizing well log velocities, formation tops, seismic velocities and seismic horizon geometry/velocities.  Resulting velocity field and calculated reservoir/target geometry can be used in the field development stage for steering drilling.
  • Pseudo-Geostatistical Cascaded Inversion (PGCI):  proven acoustic and elastic inversion workflows, integration of inversion results, well logs and various in-house generated attributes into a geostatistical reservoir modeling process.  Structural, stratigraphic and lithological modeling.
  • Nonlinear seismic technology: DHI attribute without investment into additional equipment. Exploration on combinational waves using distinct characteristics of the hydrocarbon charged reservoirs. Comprehensive suite of tests has been carried out over the years.
  • International experience: continental North America, South America, Turkey (Southeast region), Kazakhstan, Russia (Western and Eastern Siberia, Russian North, Urals and Povolzhye), offshore Africa, Middle East.