Intro to HGS-PDAF (version 1.0) - Aquanty Webinar

We are excited to share the recording of our August 21, 2024 webinar, where we introduced HGS-PDAF (version 1.0)—a groundbreaking tool that enhances hydrological modeling through the integration of real-time data assimilation.

In this insightful webinar, Qi Tang and and Lars Nerger present the innovative capabilities of HGS-PDAF, which merges the surface and subsurface water model (HGS) with the Parallel Data Assimilation Framework (PDAF). This integration significantly improves the accuracy of water resource predictions, leveraging high-performance computing to deliver reliable insights for both research and practical applications in water management.

At the heart of this advanced platform is HydroGeoSphere (HGS), a powerful modeling engine renowned for simulating complex hydrological processes with exceptional fidelity. HGS-PDAF takes this a step further by incorporating real-time data assimilation, enabling researchers and decision-makers to refine their models dynamically as new data becomes available.

Dr. Qi Tang, a seasoned researcher at the University of Basel, and Dr. Lars Nerger, a senior scientist at the Alfred Wegener Institute, Helmholtz Center for Polar and Marine Research, lead this pioneering effort. Together, they showcase how HGS-PDAF is revolutionizing hydrological modeling through a river-aquifer model, demonstrating its versatility and effectiveness in various hydrological contexts.

Whether you're involved in academic research or practical water management, this webinar offers valuable insights into how HGS-PDAF can enhance your understanding and management of water resources.

Explore the future of hydrological modeling by watching the webinar recording now. Discover how HGS-PDAF is setting new standards in the field, providing researchers, water resource managers, and decision-makers with the tools they need to achieve greater accuracy and efficiency in their work.

Watch The Recording

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HGS RESEARCH HIGHLIGHT – Assessing the impact of surface water and groundwater interactions for regional-scale simulations of water table elevation

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HGS RESEARCH HIGHLIGHT – A black-box automated approach to calibrate numerical simulations and optimize cover design: Application to a flow control layer constructed on an experimental waste rock pile