The CoE will deliver cutting-edge digital twin capabilities to joint customers worldwide across mobility, high-tech, and sustainability segments, enabling digital twin solutions to support enhanced innovation and efficiency.
The CoE will help organisations learn the latest methodologies and technologies in the areas of:
- AI-powered engineering to transform products, systems, and processes
- Innovation labs to simulate new use cases
- Predictive maintenance
- Rapid product development to reduce cycle time for physical prototyping
- Hands-on training
“In a world defined by the ever-increasing pace of technology and market pressures, this initiative will help organisations stay ahead of technology trends, maximise their investments, and bring better, more informed products and processes to market faster,” said Stephanie Buckner, chief operating officer, Altair. “Our advanced approach combined with LTTS’ expertise will help teams better design, build, test, optimize, evaluate what-if scenarios, perform predictive maintenance, and extend the remaining useful life (RUL) of their products without physical prototypes.”
"The strategic partnership with Altair is poised to revolutionise the digital twin technology landscape. By leveraging LTTS’ cross-domain engineering expertise and Altair's simulation and data analysis capabilities, we are set to redefine industry standards across segments such as mobility, sustainability and high-tech,” claimed Abhishek Sinha, executive director and president of Medical, Smart World, and Functions, LTTS.
LTTS has extensive experience in digital twin technology with multiple CoEs across its design centres. Its Digital Twin for Line Operations enhances performance through virtual commissioning, efficiency monitoring, predictive maintenance, and root cause analysis using real-time and historical data.
The company supports strategic digital transformations and offers modular implementation and role-based access.
LTTS has already utilised Altair’s digital twin portfolio – covering solutions from both the Altair HyperWorks design and simulation platform and Altair RapidMiner data analytics and AI platform – for multiple diverse use cases, including:
- Motor, battery, and gear box systems
- Automotive electrical systems
- Heart attack and stroke risk prediction
- Data-driven automotive production line performance
- Data-driven wind power forecasting