DOM (Digital Outcrop Model) – AssistedSurface Structural Mapping for Fracture Reservoir Development

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GIS & DOM Course

Other Course Category :

DOM (Digital Outcrop Model) - Assisted Surface Structural Mapping for Fracture Reservoir Development

This training is designed to equip participants with the knowledge and practical skills to apply Digital Outcrop Models (DOM) in structural geology and fracture reservoir development. Participants will learn how to acquire and process DOM datasets using UAV photogrammetry and LiDAR, including techniques for cleaning, georeferencing, and handling vegetation cover. The course emphasizes the integration of field-based structural measurements, such as strike and dip, with DOM-based interpretations to build accurate geological models. Through hands-on sessions, participants will practice lineament extraction, fault and fracture tracing, and continuity analysis across complex outcrop surfaces. They will also develop competence in grouping fractures into sets and performing statistical analysis to quantify orientation, spacing, intensity, and density. Visualization techniques, including stereonet and rose diagram plotting, will be taught to enhance interpretation. By the end of the course, participants will be able to validate results with field data and produce professional deliverables, including structural trace maps and fracture characterization reports.

Course Info

Discipline

B. Geophysics Course/Seismic Interpretation

Duration

3 days

Level

Fondation

Delivery Mechanism

Classroom

Deliverables:

Meeting Room

Certificate

Professional Instructors

Meals

Training Materials

Schedule

Agenda

DAY 1

Introduction & Data Acquisition Methodology (Classroom)

Overview of fracture reservoir development & importance of surface structural mapping

Introduction to DOM (Digital Outcrop Model): workflow, tools, and case studies

Comparison: Conventional vs. DOM-assisted mapping

Techniques of data acquisition for DOM (Photogrammetry)

DOM Data Acquisition Processing methodology

Field protocols: georeferencing, scale, accuracy, vegetation handling

DAY 2

DOM Acquisition, Processing & Visualization (Fieldwork)

Field measurement of structural data (strike & dip, fracture set, fault geometry)
DOM Data Acquisition
DOM Data Processing

DAY 3

Structure Mapping, Sets & Statistics (Classroom)

Data cleaning, filtering, and vegetation handling

Creating 3D DOM: meshing, texturing, georeferencing

Manual vs. semi-automatic lineament extraction

Identifying fractures and faults from DOM

Addressing continuity issues across vegetation cover

Digitizing faults and fractures on DOM

Assigning attributes: strike, dip, spacing, aperture

Integration with field measurements

Grouping fractures into families (orientation sets)

Quantitative analysis: spacing, intensity, density

Rose diagram & stereonet plotting

DAY 4

Validation, Integration & Deliverables (Classroom)

Cross-checking DOM interpretation with field measurements

Ensuring structural continuity across vegetation

Uncertainty assessment and error sources

Preparing Structural Trace Map (faults & fractures with attributes)

Exporting stereonet & rose diagrams

Report formatting & visualization standards

Discussion of industrial applications in fracture reservoir characterization

Instructor

Is an emerging expert in structural geology and digital outcrop modeling, combining robust academic credentials with real-world field experience. He specializes in interpreting tectonic evolution, structural mapping, and morphotectonic analysis using advanced digital workflows. As an assistant professor and lead trainer, he brings cutting-edge methodology and hands-on training excellence—ideal for professional development programs in fracture reservoir characterization and geological modeling.

Online (for Public)

Start Date:

9 Februari 2026

End Date:

12 Februari 2026

Price

35 Mio/person

Minimum 2 Person