Principles of 3D Computer Modelling
Consultant/Trainer: Janpieter van Dijk
The Petrogenium (in collaboration with EPTS) Principles of 3D Computer Modelling participants in this course will gain a solid foundation in the principles and frameworks of 3D computer modeling, including 3D geomathematics and its applications in Physics, Chemistry, and Natural Sciences. They will explore green IT, cloud computing, algorithms, and programming languages, as well as classical 3D working environments used for seismic mapping, reservoir modeling, and integration with CAD and GIS. The course covers advanced modeling concepts such as DEM, DTM, TIN, Voxel, Tetrahedral grids, Nurbs, and fuzziness, and connects these to emerging technologies like Digital Twins, Artificial Intelligence, Virtual Reality, and Machine Learning.
Participants
Technical staff, Technical Leaders, SME, Team Leaders, Project Managers but also Department Managers in Geosciences, Data management, Geologists, Geophysicists and Reservoir Management in O&G, Geothermal Energy Generation and CCUS.
Learning Objectives
The learning objective of this course is to equip participants with a comprehensive understanding of 3D computer modeling principles and their practical applications in engineering, geosciences, and digital innovation. Participants will learn to apply 3D geomathematics and modeling techniques to solve real-world problems, integrate classical and modern modeling environments (such as CAD, GIS, and BIM), and utilize emerging technologies like Digital Twins, Artificial Intelligence, and Virtual Reality. The course aims to develop practical skills in building and interpreting static and dynamic reservoir models, working with advanced 3D grids and data structures, and efficiently linking various digital environments for geoscience and engineering workflows.