HYDROLINK
The next generation of hydraulic intelligence. Bridging advanced research with high-performance computing systems.
Core Capabilities
Real-time Telemetry
Distributed sensor networks providing high-frequency data for precision hydraulic modeling.
Predictive AI
Deep Learning architectures designed to forecast peak flows and urban flood inundation with 98% accuracy.
Global Forum
A decentralized Nexus for researchers to collaborate, share datasets, and publish high-impact findings.
Vision
To become a leading interdisciplinary research center that advances water and sustainability science for resilient societies and sustainable development.
5 Core Missions
Scientific Innovation
Advance scientific innovation through interdisciplinary water-related research in many aspects and knowledge.
Bridge Science & Policy
Transform empirical research into actionable recommendations for government agencies, industries, and communities.
Societal Resilience
Promote societal resilience by addressing the human dimensions of water-related issues including disasters and climate changes.
Education & Capacity Building
Empower education through student engagement, training programs, and collaborative research, cultivating the next generation of interdisciplinary scholars.
Global Collaboration
Foster national and international collaboration to strengthen Indonesia's role in global sustainability science and ensure long-term research continuity.