Transfer Learning with Prior Data-Driven Models from Multiple Unconventional Fields

Author:

Cornelio Jodel1ORCID,Mohd Razak Syamil1ORCID,Cho Young1ORCID,Liu Hui-Hai2ORCID,Vaidya Ravimadhav2ORCID,Jafarpour Behnam3ORCID

Affiliation:

1. University of Southern California

2. Aramco Americas

3. University of Southern California (Corresponding author)

Abstract

Summary Constructing reliable data-driven models to predict well production performance (e.g., estimated ultimate recovery, cumulative production, production curves, etc.) for unconventional reservoirs requires large amounts of data. However, when considering unconventional reservoirs in their early stages of development, where data and the wells drilled are limited, one may benefit from leveraging available data and/or pretrained models from other more developed fields. Transfer learning, the process of storing knowledge gained while solving one problem (source data) and applying it to solve a different but related problem (target data), provides a workflow for alleviating data needs in training a data-driven model in fields with limited data. However, a pitfall in the application of transfer learning is the possibility of negative transfer, that is, transferring incorrect or irrelevant knowledge to the target data. In particular, the black-box nature of most data-driven models, e.g., neural networks, support vector machines, and random forest, makes it difficult to completely interpret the contribution of different source models used for knowledge transfer. Hence, ranking the viability of source models for transfer learning can reduce the risk of negative transfer and improve the prediction performance. In this paper, we illustrate the impact of negative transfer and how it can be identified, and present a new approach for ranking multiple source models based on their positive transfer contribution. Finally, we propose a framework to build a reliable model to predict well production performance by combining multiple sources of information into one network to be transferred and retrained with limited data in fields at their early stages of development.

Publisher

Society of Petroleum Engineers (SPE)

Subject

Geotechnical Engineering and Engineering Geology,Energy Engineering and Power Technology

Reference128 articles.

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3. Data-Driven Modeling Approach for Recovery Performance Prediction in SAGD Operations;Amirian,2013

4. Asgarian, A., Sobhani, P., Zhang, J. C. et al. 2018. A Hybrid Instance-Based Transfer Learning Method. arXiv: 1812.01063 (preprint

5. submitted 3 December 2018). https://doi.org/10.48550/arXiv.1812.01063.

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