SMME Research Groups
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Advanced High-Speed MachiningThis group investigate, develop and optimize machining/process parameters utilizing high speed machining of variety of materials, including super alloys. Also, devising different strategies for reducing energy consumption in machining processes and to maximise resources efficiency. |
Additive and Smart ManufacturingThis research group is designing and manufacturing stress-driven, functional gradient structures incorporated with different lattices to achieve light-weighting as well as customization with a wide range of applications in aerospace & medical industry. Also, investigates the improvement. |
Multidisciplinary MaterialsThe Multidisciplinary Materials Research Group is developing constitutive models to predict material behaviour under various loading conditions, including fatigue, creep, and impact. The behaviour of these models is analysed using Scanning electron microscopy (SEM) and X-ray diffraction. |
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Intelligent RoboticsAdvances autonomous AI-driven systems by integrating mobility, precision and assistive technologies to tackle key robotics challenges across diverse applications. |
Human Robot InteractionDesigns innovative systems using robotics, AR, and NLP to enhance human-machine interaction, aiming for better accessibility, productivity and seamless communication. |
AI and Machine LearningDevelops advanced, ethical and interpretable AI for real-world robotics and automation challenges, driving impactful and efficient innovations. |
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Medical Device Design & PrototypingThe research group is dedicated to advancing the development of Medical Device Design & Prototyping meeting international standards. |
Materiomics & Biomaterials InnovationThe research group is dedicated to translate material science discoveries into real-world biomedical solutions. |
Next-gen Human Machine TechnologiesThis group works on developing algorithms for biomedical signal decoding and feedback systems. |
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NeuroBiomedical InnovationsAt the NeuroBiomedical Innovations in Neurodegenerative Diseases research group, our objective is to advance understanding of the molecular, cellular, and genetic mechanisms. |
Multidisciplinary Computational AerosciencesThis group focuses on advanced computational methods to solve complex, cross-disciplinary problems in aerospace science and engineering |
Computational Solid MechanicsAdvancing knowledge in solid mechanics through research on composites, adhesive joints, biomechanics, finite element analysis, and multiphysics modelling. |
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Automotives and TribologyAt the NeuroBiomedical Innovations in Neurodegenerative Diseases research group, our objective is to advance understanding of the molecular, cellular, and genetic mechanisms underlying neurodegenerative diseases for enabling early detection, developing personalized treatment and prevention of neurodegenerative disorders. |
Thermo-fluids SystemsThe Thermo‑fluids Systems Research Group integrates fluid mechanics, heat transfer, microfluidics, and renewable energy to deliver impactful science and engineering. Our work spans high‑fidelity numerical simulations (DNS/LES, FSI), advanced experimentation. |
Sustainable Materials and Renewable TechnologiesSustainable Materials and Renewable Technologies (SMART) group aims to develop innovative materials, technologies for clean energy, sustainable electronic systems, efficient biocomposite structures, reverse engineering, and automotive technologies. |
