India's First Innovative
NVH Learning
Laboratory
Experience the Future of Noise, Vibration & Harshness Engineering through Simulation, Remote Laboratories, and Real Experiments. Supported by Dassault Systemes Foundation.
Why Choose the NVH Lab?
Bridging the gap between theoretical knowledge and practical engineering skills.
NVH Fundamentals
Master the core concepts of vibration, acoustics, and structural dynamics through structured theoretical modules.
Abaqus Integration
Develop complex finite element models in Abaqus (SIMULIA) and predict vibration behavior before testing.
Experimental Validation
Validate your simulation predictions using our 7 custom-built experimental test rigs.
100% Remote Laboratory
Access physical test rigs, control parameters, and stream real-time sensor data from anywhere in the world.
Faculty Development
Dedicated training programs enabling engineering faculty to integrate practical NVH into their curriculum.
Research & Innovation
A powerful platform for postgraduate students and PhD scholars to conduct advanced vibration research.
Standard Engineering Design Cycle
1. Theory
Master NVH mathematics and structural dynamics.
2. Simulation
Predict behavior using Abaqus finite element models.
3. Experiment
Test physical models via remote lab test rigs.
4. Analysis
Correlate computational data with physical sensor measurements.
5. Industry Ready
Graduate with practical hands-on engineering skills.
Instrumentation & Remote Operation
Experience our physical test rigs from anywhere. Through advanced sensor instrumentation, we deliver live video and real-time vibration data directly to your analysis software.
Remote Test Rig Operation
Live StreamVideo Placeholder
engineering Past Instrumentation
Hands-on configuration of sensors and data acquisition hardware with our expert faculty.
monitoring Real-Time Analytics
Advanced spectrum analysis and live data visualization of remote physical experiments.
Advanced Test Rigs
Half-Car Test Rig
Simulates vehicle suspension behavior under different road conditions, assessing pitch and bounce dynamics.
Learn More arrow_outward
Quarter Car Test Rig
Analyze individual wheel suspension dynamics, sprung vs. unsprung mass interactions, and ride comfort.
Learn More arrow_outward
Vibration Isolation Model
Demonstrates how base isolation systems protect buildings from seismic vibrations using a shaker table.
Learn More arrow_outward
Four Pendulum Model
Demonstrates oscillatory motion, resonance, synchronization, and energy transfer between coupled systems.
Learn More arrow_outward
Supported by Dassault Systemes Foundation
The NVH Learning Lab is designed as an integrated learning platform that combines theoretical instruction, numerical simulation using Abaqus, and experimental validation.
The objective is to provide students with an industry-oriented learning experience by enabling them to correlate computational predictions with physical measurements in a true remote setup.
Industry Collaboration
Bridging the academic-industry gap.
Hands-on Education
Practical validation of CAD theories.
Inside the Flora NVH Lab
State-of-the-art physical test rigs and educational infrastructure designed to bridge the gap between theoretical knowledge and practical application.
Physical Test Rigs
Quarter car, half car, and beat vibration demonstration setups.
Theoretical Foundation
Course deployment and Abaqus FEA educational posters.
Ready to Experience India's Most Advanced NVH Lab?
Join universities and researchers nationwide in performing remote, high-fidelity engineering experiments.