1. Status of Integrated Reservoir Modeling
1.1Seismic to Reservoir Simulation Modelling

1.2Exploration to Reservoir Development
1.3Petrophysics in Simulation Models
1.4Seismic inversion utilization for new field development and drilling
1.5Fields with no seismic
1.6Depositional concepts into geocellular models and to the satisfaciton of simulation Flow Units
1.7Influence of History matched models on the static models

1.8Production data within static models
1.9Managing complex projects
2. Value of a good model, cost of a poor one - Decisions for a relevant Static Model
2.1Uncertainties in decision making
2.2Value of information for Static Model
2.3What’s New?
2.4Level of detail - Do we "over-model"
2.5Seismic to Simulation
2.6Does one model fit all field objectives - How do we efficiently differentiate the variations?
2.7Efficient data management of models
2.8Knowledge transfer - High on the agenda?
2.9Avoidance of premature decisions: Probability of a static model being able to be history matched
2.10Associated risks and Mitigation
2.11Managing governance
2.12Uncertainties in Reserves
2.13Phase Development in high uncertainties reservoirs
3. Uncertainty analysis and how it reduces development risks
3.1Uncertainty range assessment and identification
3.2Reservoir Simulations Driving Geological Interpretations
3.3Today’s Workflows
3.4Low Resistivity and Low Contrast
3.5Carbonates
3.6Petrophysics
3.6.1Rock Physics
3.7Seismic
3.7.1Velocity Model uncertainty
3.7.2Uncertainties in Seismic Inversion Derivatives
3.7.3Low Frequency Models
3.8Dynamic uncertainties
3.8.1Production allocation uncertainties
3.8.2Inter-Reservoirs communications uncertainties
3.8.3High gas production source in a saturated reservoirs under Miscible Gas / WAG injection
4. Low Resistivity and Low Contrast (LRLC) Reservoirs
4.1Rock Physics for LRLC
4.2LRLC reservoir characterizations
4.3Integrated Geocellular Model for LRLC zones
4.4Petrophysics for LRLC reservoirs