The future of surgery is intelligent, predictive, and simulation-driven.
MedTech OEMs today face increasing pressure to improve clinical precision, reduce navigation risk, accelerate validation cycles, and differentiate with meaningful AI innovation. Traditional systems—fragmented, reactive, and hardware-centric—can no longer support the next generation of minimally invasive and image-guided interventions.
Introducing the LTTS Digital Twin & Navigation Ecosystem
At L&T Technology Services, we have developed an AI-powered Digital Twin platform purpose-built for surgical and respiratory applications—combining high-fidelity organ modeling, real-time navigation intelligence, and predictive analytics into a unified ecosystem.
Built on advanced Digital twin architecture, the platform enables:
- Fully digitized lung models replicating real organ behavior
- AI-driven procedural planning and pathway prediction
- Real-time navigation guidance to reduce scope misplacement
- Virtual simulation environments to accelerate validation
- Integrated data intelligence across imaging and device systems
Strengthened by Strategic Collaboration
In partnership with NVIDIA, LTTS is advancing a next-generation Digital Twin platform for respiratory diagnostics and lung navigation—leveraging GPU-accelerated computing, deep learning, low-latency AI inference, and immersive 3D visualization to enhance diagnostic accuracy and procedural confidence.
Business Impact for MedTech OEMs
- Higher Clinical Precision
AI-guided navigation reduces procedural variability and risk. - Faster Time-to-Market
Virtual validation shortens development and clinical testing cycles. - Stronger Differentiation
Move from standalone devices to intelligent surgical ecosystems. - Scalable Innovation
Future-ready architecture designed for AI evolution and regulatory advancement.
Download the brochure to learn more.