15th International Conference on Hydroinformatics HIC 2024

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Conference Room 1第一会议厅

2024-05-28 (UTC+8) Tue

09:00-10:30 (UTC+8) | S8.4 Technologies for water management and monitoring (VIII) [Technologies for water management and monitoring]

Moderator：

Hongbin Zhang

NO.	Beijing Time (UTC+8)	Type	Presentation Topic	Speaker	Affiliation / Organization
1	09:00-09:15	Oral Presentation	Integration of Remote Sensing and On-Site Hydro-Meteorological Data in Real-time Monitoring for Smart Irrigation	Chih Chao Ho	Construction and Disaster Prevention Research Center,Feng Chia University
2	09:15-09:30	Oral Presentation	A comparative study on image recognition methods of rapeseed	Zhuoyue Zhou	China Institute of Water Resources and Hydropower Research
3	09:30-09:45	Oral Presentation	Dynamic Change Analysis of Human-induced Soil Erosion in the Fenhe River Basin from 2020 to 2023	Kai Guo	Yellow River Institute of Hydraulic Research
4	09:45-10:00	Oral Presentation	Analysis of the Temporal and Spatial Evolution of NDVI and Its Correlation with Soil Moisture Content in Extreme Arid Areas: A Case Study of the Kekeya Irrigation District in Turpan	Pengbo Zhao	Turpan Institute of Water Resource Science
5	10:00-10:15	Oral Presentation	Microplastics increase the risk of greenhouse gas emissions and water pollution in a freshwater lake by affecting microbial function in biogenic element cycling: a metagenomic study	Beibei Chai	Hebei University of Engineering
6	10:15-10:30	Oral Presentation	Flood Risk monitoring using Synthetic Aperture Radar (SAR) and Modified Normalized Difference Water Index (MNDWI)	Addisalem Bitew Mitiku	Ethiopian Construction Design and Supervision Works Corporation

13:30-15:00 (UTC+8) | S4.4 SS13 High-Performance Computing in Hydrodynamics, Hydrology and Hydroinformatics [SS13 High-Performance Computing in Hydrodynamics, Hydrology and Hydroinformatics]

High-Performance Computing (HPC) is ever more available and accessible. Although it is extensively used in many fields, hydrodynamics and hydrology still have not widely adopted HPC and have not fully leveraged on the transformative capabilities in addressing key challenges in these fields. HPC resources are available to scientists and practitioners across a range of scales, from single high-end GPUs on workstations to small clusters, and up to national and international HPC centres.

HPC flattens the road leading to very high-resolution hydrodynamic modelling for purposes such as flood modelling and water resources assessment. It allows the scaling up of physically-based models into hydrological scales in space (catchments) and time (years). Enabling high-resolution and large domains allows us to explore the interplay between scales, provide more accurate and integrated forecasts, and remove unnecessary boundaries from our models. Moreover, HPC facilitates augmenting core surface flow and subsurface flow models with additional processes such as sediment transport dynamics, ecohydraulics and ecohydrology, root-soil water interactions, and more complex geophysical flows (mud and debris flows, landslides, avalanches, etc), and exploring complex phenomena across scales such as detailed flood risk assessment and early warning, groundwater scarcity and pollution, hydroclimatic extremes, interactions with climate, and many other hydroinformatics applications with exceptional accuracy and efficiency. HPC will also play a key role in the emergent artificial intelligence and machine learning technologies.

This special session aims to provide an overview of the latest advancements and future directions of HPC-driven research in hydrodynamics, hydrology and hydroinformatics, fostering knowledge and experience exchange between developers, users, researchers, practitioners and policymakers. The session will feature applications using HPC hardware and software, from GPUs to supercomputers. We are interested in contributions that showcase hydro-insights obtained from HPC applications, technical developments towards HPC use, breakthroughs in performance, efficiency, robustness and sustainability of hydroinformatics and HPC, challenges facing the use of HPC in these fields, and technology transfer of HPC applications into practice. Contributions are welcome from all aspects of hydroscience which exploit HPC.

Moderator：

Fan Wang

NO.	Beijing Time (UTC+8)	Type	Presentation Topic	Speaker	Affiliation / Organization
1	13:30-13:45	Oral Presentation	Hydrodynamic modelling of solute mixing past rigid vegetation on the graphics processing unit	Georges Kesserwani	University of Sheffield
2	13:45-14:00	Oral Presentation	SERGHEI-GW: An efficient high-performance variably-saturated groundwater model	Na Zheng	Tongji University
3	14:00-14:15	Oral Presentation	Parallel computing strategy for fast transient simulation and analysis in pipe fluid networks	Bin Pan	THE HONGKONG POLYTECHNIC UNIVERSITY
4	14:15-14:30	Oral Presentation	A Highly-Scalable and Performance Portable Hydrodynamic Modelling Code based on SYCL	Xilin Xia	University of Birmingham
5	14:30-14:45	Oral Presentation	HPC performance tests of TELEMAC-2D on the Brague river flood of October 2015	Olivier Delestre	LJAD - UniCA, LHSV
6	14:45-15:00	Oral Presentation	Advancing Environmental Simulations through SERGHEI: Novel Approaches in Hydrodynamic Modeling	Mario Morales-Hernández	Universidad de Zaragoza

15:30-17:00 (UTC+8) | S5.4 Complex water systems, remote sensing and control (II) [Complex water systems, remote sensing and control]

Moderator：

Yizhu Lu

NO.	Beijing Time (UTC+8)	Type	Presentation Topic	Speaker	Affiliation / Organization
1	15:30-15:45	Oral Presentation	Uncertainties Due to Diverse Attributes and Models in Rainfall Retrieval based on Commercial Microwave Links	Bin Lian	Hebei University of Engineering
2	15:45-16:00	Oral Presentation	Evaluation of Segment Anything Model for Riparian Land Cover Classification from Aerial Imagery	Shijun Pan	Okayama University
3	16:00-16:15	Oral Presentation	The Interchangeability of the Cross-Platform Data in the Deep Learning-based Land Cover Classification Methodology	Shijun Pan	Okayama University