Council of Indian Institute of TechnologySelect IIT
| Campus Name | Title | |
|---|---|---|
| IIT Kharagpur | STUDY OF HIGH SPEED DEEP GRINDING OF BURN RESISTANT TITANIUM ALLOY & CERAMICS USING MONOLAYER ELECTROPLATED SUPER-ABRASIVE WHEEL | |
| IIT Kharagpur | SPECIAL MANPOWER DEVELOPMENT PROGRAMME FOR CHIPS TO SYSTEM DESIGN (MDD) | |
| IIT Kharagpur | SETTING UP OF TEACHING LEARNING CENTRE FOR PEDAGOGY DESIGN & RESEARCH (TLC) | |
| IIT Kharagpur | INFORMATION SECURITY EDUCATION AND AWARENESS (ISEA) PROJECT PHASE-II (IIP) | |
| IIT Kharagpur | MORPHOLOGICAL STUDIES OF RIVERS MAHANADI, MAHANANDA AND HOOGHLY (RMAH) | |
| IIT Kharagpur | POLLUTION LOAD CARRYING CAPACITY IN RAIGARH REGION (PLCR) | |
| IIT Kharagpur | POLLUTION LOAD CARRYING CAPACITY IN JANJGIR - CHAMPA REGION(CCCR) | |
| IIT Kharagpur | GCV PROFILE STUDY AT NTPC KAHALGAON (PSNK) | |
| IIT Kharagpur | PETROGENESIS & RARE EARTH ELEMENT POTENTIAL OF KAMTHAI & AMBA DONGAR CARBONATITIES (EKA) | |
| IIT Kharagpur | EFFECT OF PORE STRUCTURE OF INDIAN GAS SHALES ON ITS METHANE AND CO2 ADSORPTION BEHAVIOR (GIB) | |
| IIT Kharagpur | WATER MANAGEMENT DURING HYDROFRACKING OPERATIONS OF SHALE GAS FIELD (WSF) | |
| IIT Kharagpur | EFFECT OF INTERFACIAL GAPS IN FRP STRENGTHENED STRUCTURAL COMPONENTS: AN EXPERIMENTAL/NUMERICAL STUDY (GCN) | |
| IIT Kharagpur | STUDY OF GCV PROFILING AND STACK YARD COAL GCV CHANGE ANLYSIS (ACGA) | |
| IIT Kharagpur | NATIONAL INITIATIVE FOR DESIGN INNOVATION (NID) | |
| IIT Kharagpur | CENTRAL LABORATORY FACILITY FOR EASTERN REGION FOR WATER HYPERSPECTRAL REMOTE SENSING (RWS1) | |
| IIT Kharagpur | DEVELOPMENT OF METALLOCENE GRADE LINEAR LOW DENSITY POLYETHYLENE (LLDPE): CATALYST, PROCESS AND POLYMER UNDER MCF | |
| IIT Kharagpur | DEVELOPMENT OF INDIGENOUS BLAST VIBRATION MONITORING SEISMOGRAPH FOR MINING INDUSTRY UNDER MINISTRY OF COAL | |
| IIT Kharagpur | DEV. OF RAPID PROTOTYPE AND DUAL-TYPE FILAMENT MAKING MACHINES FOR RAPID LASER DIRECT STRUCTURING FOR MOLDED INTERCONNECT DEVICE | |
| IIT Kharagpur | EFFECTIVE DRUG REPURPOSING THROUGH LITERATURE AND PATENT MINING, DATA INTEGRATION AND DEV. OF SYSTEMS PHARMACOLOGY PLATFORM | |
| IIT Kharagpur | OLIGOSACCHARIDE NUTRACEUTICALS FROM GRAIN CROPS: NEW MOLECULES, SCALE UP OF PRODUCTION, FORMULATION AND PILOT SCALE PRODUCT DEV. | |
| IIT Kharagpur | DEVELOPMENT OF HIGH PERFORMANCE RUBBER COMPOSITES USING NEW GENERATION MATERIALS FOR APPLICATION IN TYRE | |
| IIT Kharagpur | OPEN AND INTELLIGENT PLUG-IN HYBRID ELECTRIC VEHICLE (PHEV) TECHNOLOGIES FOR SMART INDIAN CITIES | |
| IIT Kharagpur | PILOT SCALE PRODUCTION OF ETHANOL FROM LIGNOCELLULOSIC FEEDSTOCK | |
| IIT Kharagpur | SAFETY ANALYTICS: SAVE PEOPLE AT WORK FROM ACCIDENTS AND INJURIES UNDER MINISTRY OF STEEL | |
| IIT Kharagpur | RAMIE CULTIVATION, FIBER PROCESSING AND TEXTILE MANUFACTURE UNDER MINISTRY OF TEXTILES | |
| IIT Kharagpur | BOGIE DESIGN,VEHICLE DYNAM.,AND RAIL-WHEEL TRACTION CONTR. TOWARDS IMPR. SAFETY AND COMF. AND REDUC. IN RUN. COST METRO COACHES | |
| IIT Kharagpur | SMART & INTEGRATED PEDESTRIAN UNDER MINISTRY OF URBAN DEVELOPMENT | |
| IIT Kharagpur | DEVELOPMENT OF ROTARY HEARTH FURNACE TECHNOLOGY FOR TREATING OFF GRADE IRON ORE UNDER MINISTRY OF STEEL | |
| IIT Kharagpur | Research Initiatives | |
| IIT Bombay | Research and Development Activities (pg.10 of Annual Report)(AY-2023-24) | |
| IIT Bombay | Research and Development Activities (pg.12 of Annual Report)(AY-2022-23) | |
| IIT Bombay | Research and Development Activities (pg.14 of Annual Report) (AY-2021-22) | |
| IIT Bombay | Research Initiatives taken by IIT Bombay | |
| IIT Madras | Major Research Initiatives | |
| IIT Kanpur | RuTAG | |
| IIT Kanpur | PoWER | |
| IIT Kanpur | Boeing | |
| IIT Kanpur | Lunar Rover | |
| IIT Kanpur | Virtual Laboratory | |
| IIT Kanpur | Unmanned Aerial Vehicle | |
| IIT Delhi | Conferences, Seminars, Workshops, Lectures from April 1, 2013 - March 31, 2014 | |
| IIT Guwahati | Development of Stiffened Honeycomb Composite Structure to Safeguard against Shock and Impact Loading | |
| IIT Guwahati | Sociolinguistic Study of Phonetic Variations among the Clans and Khels of Two Southern Angami Villages | |
| IIT Roorkee | AHEC (2012-13 to 2015-16) | |
| IIT Roorkee | E&CE-Microwave Imaging and Space Technology Application Lab | |
| IIT Roorkee | Earth Sciences (2012-13 to 2015-16) | |
| IIT Roorkee | PHYSICS (2012-13 TO 2015-16) | |
| IIT Roorkee | Disaster Mitigation and Management (2012-13 to 2015-16) | |
| IIT Roorkee | Mechanical & Industrial Engg (2012-13 to 2015-16) | |
| IIT Roorkee | CIVIL ENGINEERING (2012-13 TO 2015-16) | |
| IIT Roorkee | Chemistry (2012-13 to 2015-16) | |
| IIT Roorkee | ARCHITECTURE & PLANNING (2012-13 TO 2105-16) | |
| IIT Bhubaneswar | Research Initiatives | |
| IIT Hyderabad | Centres and Incubators | |
| IIT Hyderabad | Conferences, Seminars, Workshops, Lectures in 2014-15 | |
| IIT Patna | AI-NLP-ML group leaded by Prof. Pushpak Bhattacharyya | |
| IIT Gandhinagar | Research Initiatives | |
| IIT Jodhpur | TITLE:-Artificial Intelligence of Things (AIoT) Artificial Intelligence of Things (AIoT) is a combination of artificial intelligence (AI) technologies with the Internet of things (IoT) infrastructure to achieve more efficient IoT operations by enhancing data management and analytics. This is transformational and mutually beneficial for both technologies as AI improves data analytics and decision-making capabilities through machine learning and IoT adds value through better connectivity, signaling and data exchange. |
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| IIT Jodhpur | TITLE:-Center for Emerging Technologies for Sustainable Development (CETSD) Center for Emerging Technologies for Sustainable Development (CETSD) is the center at IIT Jodhpur which puts on the ground viable solutions through schemes combining the technology, funding, management, social, data and environmental touchstones. Communities, industries, government, students, academic institutes, individuals, and non-governmental organizations are a part of this trans-disciplinary center. Center for Emerging Technologies for Sustainable Development is the scientific social responsibility arm of IIT Jodhpur. |
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| IIT Jodhpur | TITLE:-DRDO Industry Academia – Centre of Excellence IIT Jodhpur (DIA-CoE, IITJ) DRDO has signed an MoU with IIT Jodhpur for setting up DRDO Industry Academia – Centre of Excellence IIT Jodhpur (DIA-CoE, IITJ), for collaborative directed research under the identified research areas. DRDO and IITJ have jointly decided the following research verticals: 1. Desert Warfare Technologies 2. Futuristic Omni Mobility Systems 3. AI for information and war gaming technologies |
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| IIT Jodhpur | TITLE: -School of Artificial Intelligence & Data Science School has Centres of Excellence to enable a group of faculty to focus on very specific areas for high quality research output and specialised courses. Centres of Excellence will provide a unique and distinguished transdisciplinary capability to carry out high quality fundamental and translational research. |
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| IIT Jodhpur | TITLE:- IITJ-JJM Centre for Sustainable Drinking Water Jal Jeevan Mission (JJM) is a flagship program of Government of India. It involves piped water supply to all rural households, integrated demand & supply side management at local level, supply of 55 LPCD tap water (Har Ghar Nal Se Jal) of drinking quality as per the established standard. |
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| IIT Jodhpur | TITLE:- International Research Mobility Grant (IRMG) In the year 2021, the Institute has launched the International Research Mobility Grant (IRMG) for International research and collaboration between IITJ and International Institutes of repute (top QS ranking). International Research Mobility Grant supported from R&D funds for providing opportunities to young faculty members after following a rigorous two-stage peer review process for the selection of projects with a financial support of upto Rs.10 Lakhs. This scheme enables young faculty members to increase collaboration with International level reputed organizations / researchers. Total 07 faculty members have been awarded IRMG with total sanctioned amount of Rs. 64.27 Lakhs. |
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| IIT Ropar | Research Initiatives at IIT Ropar | |
| IIT Ropar | Research Initiatives at IIT Ropar | |
| IIT Indore | Short Term Course | |
| IIT Indore | Conferences, Workshops, Symposium | |
| IIT Indore | Global Initiative of Academic Networks (GIAN) | |
| IIT Indore | Promotion of Research and Innovation for Undergraduate Students (PRIUS) | |
| IIT Indore | Indo - German Initiative | |
| IIT Indore | Industry-Academia Conclave | |
| IIT Indore | TEQIP | |
| IIT Indore | Centre for Innovation and Entrepreneurship (CIE) | |
| IIT Indore | IIT Indore-CEERI Pilani Joint R&D Programme | |
| IIT Indore | Indo - French Initiative | |
| IIT Mandi | Workshop/Conference-22 | |
| IIT Mandi | Workshop/Conference-21 | |
| IIT Mandi | Workshop/Conference-20 | |
| IIT Mandi | Workshop/Conference-19 | |
| IIT Mandi | Workshop/Conference-18 | |
| IIT Mandi | Workshop/Conference-17 | |
| IIT Mandi | Workshop/Conference-16 | |
| IIT (BHU) Varanasi | DRDO Industry Academia - Centre of Excellence | |
| IIT (BHU) Varanasi | Centre of Excellence on Machine Tool Design | |
| IIT (BHU) Varanasi | BIS Standardization Chair Professorship | |
| IIT (BHU) Varanasi | CoE for Tunnelling & Underground Space Engineering (DMRC) | |
| IIT (BHU) Varanasi | Software Innovation Lab and Chair Professor(Jay Chaudhary) | |
| IIT (BHU) Varanasi | Student Activity Centre (Sri Ramesh Shrinivashan) | |
| IIT (BHU) Varanasi | School of Decision Science and Engineering (Shri N C Jain) | |
| IIT (BHU) Varanasi | Research Initiatives | |
| IIT Palakkad | GSCOE Analytical and Testing | NA |
| IIT Palakkad | Major Research Initiatives | |
| IIT Tirupati | IIT Tirupati | |
| IIT (ISM) Dhanbad | Major Research Initiatives | |
| IIT Bhilai | proposes a subscription-based emergency ambulance service management platform integrating mobile apps, web portals, and APIs with hospitals. Core Features: Real-time ambulance tracking, intelligent dispatching, predictive analytics, fare transparency, and hospital coordination. Technology Stack: GPS-enabled routing algorithms, intelligent ambulance assignment, API-based hospital integration, and multilingual user-friendly interfaces. Business Model: Tiered subscription (Basic, Premium, Enterprise) with additional services and data monetization. Impact: Faster response, improved patient outcomes, operational efficiency for ambulance providers, better coordination for hospitals, and trust through transparency. Scalability Plan: Initial trials with select hospitals, scale to regional, national, and eventually international markets. |
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| IIT Bhilai | focuses on developing a robust digital twin model for batteries and Energy Storage Systems (ESS) that accurately predicts their health, lifespan, and degradation patterns. While current digital twin approaches rely mainly on limited BMS data (current, voltage, surface temperature), they often overlook fundamental degradation mechanisms and real-world operational conditions such as temperature variations, charge/discharge cycles, and overuse. This project bridges that gap by: Collecting real-world ESS data from electric vehicles and comparing it with laboratory-controlled experiments. Conducting post-mortem analysis of batteries to identify physical degradation issues like SEI layer formation, dendrite growth, separator failures, and electrode short circuits. Integrating both data-driven AI/ML methods and physical degradation information into the digital twin for high prediction accuracy. The outcome will enable actuarial analysis for ESS, providing a health index and real-time commercial valuation of batteries for use in insurance, warranty assessments, asset management, and resale value estimation. This will have direct applications for insurance companies, battery manufacturers, and automobile/energy storage industries. |
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| IIT Bhilai | initially aimed at building a wallet system that can be used by HaJo for customer-to-merchant transactions. The plan was to have 3 possible transaction ways for making payments on the wallet system.(refer to Figure 1) The first one was a simplepeer-to-peer transfer which includes one customer paying a single merchant. (e.g paying hotel bills: a customer pays for their bills). The second one allows splitting the bill between multiple users to pay a single merchant (e.g a group of friends dividing their dinner bill). The split can include any number of customers with varying amount contribution as well. The third one is the group wallet where some users pool in the money beforehand. (e. A group of friends can pool in some money before a journey and then utilise that amount during the journey). | |
| IIT Bhilai | aims to design a modular agro-bot that evolves in three stages: Remote-controlled cart for fertilizer-water dispensing. AI-enabled version for disease detection, weed identification, and selective spraying. Cloud-connected system with geo-information and data analytics for large-scale farm monitoring and decision support. The agro-bot will improve efficiency, safety, and crop yield, while being scalable and affordable for small and large farms. It also has strong potential for commercialization through a start-up venture. |
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| IIT Bhilai | aims to create a sustainable, scalable, and replicable model for rural development in Chhattisgarh by fostering economic self-reliance, promoting sustainable menstruation and personal hygiene, encouraging the use of bio-based utensils, and empowering women through small-scale cooperative societies. It seeks to enhance child well-being and education via community crèches, improve indoor air quality through smokeless chulhas, and transform villages into model communities. The initiative will also focus on research, innovation, and establishing an International Centre for Rural Development and Training to collaborate with villages, NGOs, and government bodies. | |
| IIT Bhilai | aims to improve healthcare delivery in remote areas by assessing the financial impact of untreated health conditions, optimizing healthcare budgeting through a requirement-based framework, and enhancing early diagnosis of diseases such as diabetes and anemia using cost-effective, non-invasive devices. This approach seeks to reduce long-term treatment costs, minimize severe health complications, and enable efficient allocation of government resources. | |
| IIT Bhilai | aims to develop a Smart Energy Metering and Billing (SEMB) system to modernize and decentralize EV charging infrastructure by integrating accurate energy metering, real-time billing, peer-to-peer and bidirectional energy exchange (V2V, V2G, V2H), and mobile app-based slot booking. This initiative seeks to enhance energy efficiency, grid stability, scalability, economic viability, and inclusive access to EV charging, particularly in underserved regions. | |
| IIT Bhilai | aims to develop scalable, cost-effective, and eco-friendly processes to convert agricultural bio-waste—such as rice husks, coconut shells, sugarcane bagasse, and corn stover—into high-value graphite and hard carbon materials for energy storage applications. This initiative seeks to address waste management challenges, reduce carbon emissions, and support the transition toward a sustainable and circular economy, while benefiting the environment, local communities, and the manufacturing industry. | |
| IIT Bhilai | The use of natural fibers and agro-residues like Water hyacinth, Banana, Linseed, Paddy straw, Sugarcane bagasse etc. in the fabrication of biodegradable sanitary napkins, textiles, and biomaterials presents a viable solution to reduce plastic dependency and promote circular economy practices. This project aims to capitalize on these underutilized resources, addressing environmental degradation while creating economic opportunities. | |
| IIT Bhilai | The global demand for sustainable materials is growing due to environmental concerns and the overuse of synthetic fibers and plastics. Farmers often face income instability from traditional crops, but by cultivating natural fiber crops like cotton, linseed, banana, and silk and using enzymatic extraction techniques, they can access high-value markets such as sustainable fashion. Conventional fiber extraction methods consume large amounts of water, cause pollution, and degrade fiber quality. Enzymatic fiber extraction offers an eco-friendly alternative, enhancing fiber quality, reducing chemical use, lowering water consumption, and eliminating harmful effluents. This initiative links agriculture, biotechnology, and sustainable industries, creating new revenue streams for farmers while advancing global sustainability goals. Additionally, it targets sustainable extraction of high-value bioproducts like sericin, fibroin, and chitin-chitosan—widely used in pharmaceuticals, cosmetics, textiles, agriculture, and biomedical sectors—through efficient, enzyme-assisted methods that reduce waste and pollution. |
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| IIT Bhilai | To develop a hybrid modeling approach to build a Digital Twin of a machining process by integrating the manufacturing and sensors’ data for manufacturing cost estimation • Traditional methods rely on static models and past data • Lack of real-time adaptation in cost estimation • Require experimentation and trials • Need for an intelligent system integrating real-time data and AI |
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| IIT Bhilai | Exploring Health and Financial Impact Analysis of Medicinal Plants through Product Development and Scientific validation in remote Location of Chhattisgarh: Bridging Tribal Indigenous Knowledge through Artificial intelligence 1.Develop an integrated AI-powered mobile platform that uses Computer Vision, and Natural Language Processing for real-time identification of tribal medicinal plants. The platform will include a chatbot feature to provide detailed descriptions, traditional uses, and processing rituals associated with the plant, along with a plant tracking system where users can report rare plant sightings to support conservation efforts. 2.Document medicinal plant information from tribal language to Hindi, making it accessible to a broader audience. 3. To scientific document of tribal medicinal knowledge related to selected medicinal plants for (I) Skin disease (II) Malignant and non-malignant tumors (III) Arthritis (IV) Bone fracture problems and (V) Some Nervous system diseases like Alzheimer and Epilepsy in remote tribal areas of Chhattisgarh. 4. Conduct comprehensive clinical trials and pharmacological studies to test the synergistic effects of herbal formulations containing the identified plant components, ensuring their safety, efficacy, and potential for integration into modern medicine. |
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| IIT Bhilai | The aim is to design and develop an ATM including required H/W and S/W that can be easily accessible for the people with disabilities, especially visually impaired individuals. • The objective is to provide smooth access and incorporate advanced security features in the ATM, namely, multifactor authentication of users through their ATM card, face recognition (Software like Ageitgey, CompreFace, DeepFace, FaceNet, InsightFace), and speech recognition (Software like Google Now, Siri, Cortana, etc.). • Another objective is to develop a dedicated mobile application enabling users to perform banking transactions through ATM using their mobile phone that is enabled with features/apps supporting blind accessibility (e.g., VoiceOver, TalkBack, Seeing AI, Google Assistant, Microsoft Soundscape, etc.) • Also to ensure that the ATM complies with all applicable regulatory requirements and standards and to conduct usability tests and collect user feedback to ensure that the ATM meets the needs of people with disabilities. |
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| IIT Bhilai | Design and development of a 'Shramik Bhugtan Sewa Kendra (SBSK)' for Timely Payment to The Beneficiaries Residing in Far-Flung Areas Under Various Government Schemes To develop a decentralized registration system for MNREGA workers using Aadhaar-based / biometric authentication and also decentralized unit for wage/pension payment to rural beneficiaries. To create a transparent and secure payment system for MNREGA workers, reducing inefficiencies and corruptions. To extend the reach of the system to remote areas with limited internet connectivity using wireless internet dish antennas. To improve the accuracy of payments and prevent fraud by implementing a biometric authentication system. To provide real-time short message service (SMS) confirmations to nodal officers and other relevant stakeholders, workers. To reduce the travelling effort to the workers. |
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| IIT Bhilai | This project aims to conduct a comprehensive mapping and technological intervention study of GI (Geographical Indication) products in Chhattisgarh, one of India’s culturally rich and biodiverse states. Despite its immense potential—with nearly 19,000 rice varieties, rich forest produce, and unique crafts—only a handful of products have received GI tags so far. The study will cover all 33 districts of Chhattisgarh through field visits, stakeholder consultations, and data collection. It will identify products suitable for GI tagging and evaluate how already registered GIs have impacted local livelihoods. In addition, proposes the adoption of AI/ML models, blockchain-enabled traceability, and SaaS platforms to create digital supply chains, enhance transparency, and ensure fair profit distribution to artisans, farmers, and weavers. By linking heritage products with modern technologies, will facilitate export readiness, boost branding, and open up new markets. The ultimate goal is to create a sustainable GI ecosystem in Chhattisgarh that preserves cultural heritage, empowers local communities, and contributes to economic self-reliance by scaling up GI-linked livelihoods. |
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| IIT Bhilai | This project aims to develop AI and deep learning-based graph analytics techniques to strengthen fraud detection in financial systems. In the stock market, the proposed methods will identify circular trading activities that distort market integrity. For anti-money laundering (AML), the system will detect layering patterns, mule accounts, and suspicious transaction flows, while tracing final beneficiaries with high precision. Extending these techniques to the Goods and Services Tax (GST) ecosystem, will build models to detect circular trading networks and fraudulent GST returns, helping reduce revenue leakage and financial fraud. By leveraging graph embeddings, clustering, and advanced deep learning, the proposed framework will provide regulators and financial institutions with powerful tools for early detection, prevention, and investigation of financial crimes. |
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| IIT Bhilai | will develop an AI-powered drone surveillance system for agriculture that integrates UAV sensors, IoT, and cloud platforms to monitor crop health, pests, and water stress in real time. It will address key gaps in data assimilation, generalized crop monitoring models, and ease of use for non-technical farmers. Featuring automated flight planning, data analysis, and user-friendly controls, the system will enable timely, precise interventions, improving yields and reducing resource wastage. | |
| IIT Bhilai | This project aims to understand pollutant interactions in water using molecular dynamics simulations and spectroscopy, focusing on pesticide diffusion. Goals include characterizing interactions, quantifying pollutant concentrations, understanding transport patterns, optimizing treatment processes, developing predictive models, and fostering interdisciplinary collaboration. The outcomes will be communicated in simple terms with visuals through platforms like IoT to aid in water pollution management and preservation. | |
| IIT Bhilai | This project leverages the functionality of Central Bank Digital Currency (CBDC) and TrusToken system enhanced by biometric authentication and Near Field Communication (NFC), significantly improving security and user experience. By utilizing CBDC, addresses critical gaps in traditional financial systems, such as the inability to restrict fund usage to predefined purposes. It establishes a closed-loop transaction ecosystem, ensuring funds are allocated exclusively for purposes like mess payments and academic fees. Additionally, using CBDC streamlines benefits disbursement, eliminating delays and manual errors, thus enhancing operational efficiency and reliability. also includes the development of SAMAF and MUDI mobile applications, which integrate biometric and NFC technologies to strengthen transaction authentication within the CBDC framework. It introduces offline CBDC capabilities to promote financial inclusion, empowering users in areas with limited or no internet and telecom connectivity to access essential financial services. Furthermore, the integration of post-quantum security measures sets a new benchmark for safeguarding CBDC transactions, providing future-proof protection against emerging threats while ensuring transaction anonymity and validity. This comprehensive approach addresses critical security, efficiency, and inclusivity challenges, elevating the functionality of CBDC and fostering its adoption. By presenting an integrated solution to existing limitations, advances the potential of digital currency systems, creating a secure, efficient, and inclusive financial ecosystem. | |
| IIT Bhilai | aims to transform traditional farming practices in Chhattisgarh’s rural and tribal regions by integrating AI, IoT, data analytics, and FinTech solutions. Through farmer database linkage, IoT-based weather and soil monitoring, crop health detection, and predictive analytics, the system will provide real-time, farm-specific advisories to small and marginal farmers. A WhatsApp-based chatbot will ensure accessibility in local languages, while a digital marketplace with insurance and market linkages will enhance financial inclusion and fair trade. targets smallholder and tribal farmers across different agro-climatic zones, aiming to boost productivity, ensure sustainability, and improve socio-economic well-being. The approach is designed to be scalable, inclusive, and impact-driven, paving the way for a replicable model of digital agriculture. | |
| IIT Bhilai | Information Security education and awareness (ISEA) project phase III | |
| IIT Bhilai | NATGRID | |
| IIT Bhilai | Blockchain and Machine Learning Powered Unified Video Know Your Customer (KYC) Frame work | |
| IIT Bhilai | Common research and technological development Hub | |
| IIT Bhilai | Advanced Communication Systems (ACS) | |
| IIT Bhilai | DIGITAL TRANSFORMATION SYSTEM FOR PRE-FAILURE ALERT GENERATION FOR EQUIPMENT FAILTURE & COBBLE REDUCTION BASED 0N DATA ANALYTICS AND VIDEO ANALYTICS AT BRM | |
| IIT Bhilai | Information Security education and awareness (ISEA) project phase III | |
| IIT Goa | CATeRS | |
| IIT Goa | COE in sustainable combustion and propulsion | |
| IIT Goa | COE in particulates, colloids and interfaces | |
| IIT Goa | HPC Nodal Center | |
| IIT Goa | Siemens digitalization COE | |
| IIT Jammu | Records not found | |
| IIT Dharwad | Design and Development of 4D Printing Technology for different applications | |
| IIT Dharwad | Development of Eco-Friendly Ancient Indian Clay, Ceramic Idols/potters of Traditional Importance by Extrusion Based 3D printing | |
| IIT Dharwad | Development of Biosensors for Early Cancer Diagnostics | |
| IIT Dharwad | First Integrated Circuit (Chip) designed at IIT Dharwad was fabricated at Foundry in Taiwan |