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EAGE Digital 2023 to explore the enabling power of technological innovation

Be part of the Technical Programme

EAGE’s flagship digital transformation conference returns in 2023 following a successful second edition in Vienna earlier this year. The Third EAGE Digitalization Conference & Exhibition (EAGE Digital 2023) will take place in London on 20-22 March 2023 under the theme ‘Technology Driving Innovation for the Future’.

Hosted this time by Shell, the conference will once again bring together some of the greatest minds in our industry to showcase the newest technologies, latest developments, state-of-the-art products and innovative services related to digitalization. The conference creates a powerful forum bringing together energy companies, cloud providers and the vendor industry for three days of transformative knowledge exchange and discussions.

Key to this success is the combination of strategic and technical streams alongside a robust exhibition and diverse networking and social opportunities. The broad selection of topics is sure to appeal to professionals from a wide range of subsurface industries and technology backgrounds. High quality roundtables and panel discussions should inspire and trigger a lot of excellent discussions and new insights.

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Submit your abstracts before 10 January 2023 to join an exciting lineup of leading experts in the technical programme. Abstracts are invited on but not limited to the below topics:
  • Digitalization and Insight Generation
  • Applied Analytics and Machine Learning
  • The Digital Subsurface: Innovation, Collaborative Competition, and Growing the Digital Toolkit
  • Digitalization as a Lever for Energy Transition

Impressions from EAGE Digital 2022 in Vienna

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2021

Siddharth Misra

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Prof Dr Siddharth Misra’s research focuses on improving subsurface characterization and prospect evaluation for the exploration of hydrocarbons, minerals and water resources.

His major contribution is in the theory of electromagnetic responses of geological formations to various charge polarization phenomena. The theory has enabled him to introduce a multi-frequency electromagnetic log-inversion technique to remove dielectric effects for improved estimation of hydrocarbon pore volume.

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