We present an efficient workflow that combines multiscale (MS) forward simulation and stochastic gradient computation - MS-StoSAG - for the optimization of well controls applied to waterflooding under geological uncertainty. A two-stage iterative Multiscale Finite Volume (i-MSFV), a mass conservative reservoir simulation strategy, is employed as the forward simulation strategy. MS methods provide the ability to accurately capture fine scale heterogeneities, and thus the fine-scale physics of the problem, while solving for the primary variables in a more computationally efficient coarse-scale simulation grid. In the workflow, the construction of the basis fuctions is performed at an offline stage and they are not reconstructed/updated throug...
We consider robust ensemble-based multi-objective optimization using a hierarchical switching algori...
We consider a complex dynamical system, which depends on decision variables and random parameters. T...
Optimal field development and control aim to maximize the economic profit of oil and gas production ...
We present an efficient workflow that combines multiscale (MS) forward simulation and stochastic gra...
We present an efficient workflow that combines multiscale (MS) forward simulation and stochastic gra...
We consider a technique to estimate an approximate gradient using an ensemble of randomly chosen con...
We present an efficient multiscale (MS) gradient computation that is suitable for reservoir manageme...
We introduce a semi-analytical iterative multiscale derivative computation methodology that allows f...
Model-based decision-making in oilfield development often involves hundreds of computationally deman...
An efficient multiscale (MS) gradient computation method for subsurface flow management and optimiza...
We are concerned with the efficiency of stochastic gradient estimation methods for large-scale nonli...
In this chapter, we describe, the structure of the stochastic optimization solver SQG (Stochastic Qu...
A multiscale gradient computation method for multiphase flow in heterogeneous porous media is develo...
Optimization has always been a challenging scope in any field of science, and reservoir management i...
Real-world simulation optimization (SO) problems entail complex system modeling and expensive stocha...
We consider robust ensemble-based multi-objective optimization using a hierarchical switching algori...
We consider a complex dynamical system, which depends on decision variables and random parameters. T...
Optimal field development and control aim to maximize the economic profit of oil and gas production ...
We present an efficient workflow that combines multiscale (MS) forward simulation and stochastic gra...
We present an efficient workflow that combines multiscale (MS) forward simulation and stochastic gra...
We consider a technique to estimate an approximate gradient using an ensemble of randomly chosen con...
We present an efficient multiscale (MS) gradient computation that is suitable for reservoir manageme...
We introduce a semi-analytical iterative multiscale derivative computation methodology that allows f...
Model-based decision-making in oilfield development often involves hundreds of computationally deman...
An efficient multiscale (MS) gradient computation method for subsurface flow management and optimiza...
We are concerned with the efficiency of stochastic gradient estimation methods for large-scale nonli...
In this chapter, we describe, the structure of the stochastic optimization solver SQG (Stochastic Qu...
A multiscale gradient computation method for multiphase flow in heterogeneous porous media is develo...
Optimization has always been a challenging scope in any field of science, and reservoir management i...
Real-world simulation optimization (SO) problems entail complex system modeling and expensive stocha...
We consider robust ensemble-based multi-objective optimization using a hierarchical switching algori...
We consider a complex dynamical system, which depends on decision variables and random parameters. T...
Optimal field development and control aim to maximize the economic profit of oil and gas production ...