Simulate Power. Access Anywhere.
Learn by Doing.

Demo version for Saturday's student visit: try one guided power-flow calculation and preview the future shared simulation lab for digital twins, HIL, and renewable energy learning.

Try Power Flow Demo View Project Roadmap

See How The Shared Simulation Lab Interface Works

Easy to control, comprehensive across courses, and supported by complete teaching materials and guided lab content.

Shared Simulation Lab dashboard overview

Shared Simulation Lab module interface view

Shared Simulation Lab power system interface view

Shared Simulation Lab teaching workflow view

Today vs future

One Open Module. A Larger Shared Lab in Progress.

This visit-day version keeps access focused and safe: students can try one guided power-flow module while previewing the future platform for digital twins, HIL experiments, and cloud-based lab access.

See what is open today

2025-27 Demo Access Now. Full Platform Next.

Power-flow is available for the demo. Digital twin, HIL, fault, AGC, renewable, and remote equipment access remain marked as roadmap capabilities.

Demo access map

What Students Can Use Today

Open Today

Power Flow Calculation

Visitors can upload or select IEEE 14, 33, and 39-bus Excel templates and inspect voltage and branch-flow results.

IEEE systems Voltage profile Line losses

Preview Only

Digital Twin Simulation

Future Simulink and real-time models will visualize power-system operation, transient behavior, and network states.

Simulink Dynamic models Live displays

Roadmap

Remote HIL & Equipment

The full project will support reservation-based access to real-time simulators, power hardware, and remote lab activities.

24/7 target HIL experiments Cloud access

Why it matters

Shared Access For Power Engineering

The project addresses limited lab space, expensive real-time simulator resources, and the need for flexible hands-on learning across subjects.

Real-time system behavior Hardware-in-the-loop exposure 24/7 online learning target

Learning outcomes

From Demo Interaction to Engineering Understanding

The full platform is designed for undergraduate and postgraduate power engineering subjects, connecting professional simulation software, real-time equipment, guided materials, and remote access.

01 Understand components and operation of electrical power and energy systems

02 Run professional software for load flow, fault analysis, and dynamic simulation

03 Identify, formulate, and solve complex engineering problems using lab evidence

04 Explain how real-time simulation supports design, testing, and commissioning

Project notes

How the Platform Will Grow

What is open in the current demo?

The current visitor demo opens the Power Flow Calculation module. Other modules are displayed as planned capabilities so the project scope is visible without overpromising access.

What will the full shared lab include?

The roadmap includes digital twin operation, HIL experiments, fault analysis, AGC, renewable integration, remote desktop access, and teaching materials with tutorials and assignments.

How will success be evaluated?

Evaluation will combine student feedback, subject evaluation forms, lab results, student performance, and longer-term interest in related power engineering subjects.

Which teaching subjects can benefit?

The platform starts from power engineering subjects such as EE2004, EE3004, EE4004, EE4003, and EE526, with future potential for interdisciplinary cyber-physical and transport-power topics.

Simulate Power. Access Anywhere.Learn by Doing.