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01-11-2006 |
| Teaching | Research | Industry |
|---|---|---|
| 228 | 28 | 6 |
| Date | Title | Journal | DOI | Link |
|---|---|---|---|---|
| 14-04-2026 | A Statistical Classificatory Approach for Predicting Neonatal Jaundice Using Cord Blood Albumin and Perinatal Predictors | International Research Journal of Multidisciplinary | DOI | View |
| 05-05-2024 | A survey on strategies to mitigate hot spot problem in wireless sensor networks | ShodhKosh | DOI | View |
| 02-05-2024 | Blockchain Enabled IOT-Based Water Management System for Smart Cities | International Journal of Engineering Research & Technology (IJERT) | DOI | View |
| 24-03-2024 | MEMS based Wearable Smart-Glove and its Application of Gesture Detection and Sign Language Classification for Vocally Impaired with Integrated Health Monitoring System | International Journal of Intelligent Systems and Applications in Engineering | DOI | View |
| 14-11-2023 | ECA-MURE Algorithm and CRB Analysis for High-Precision DOA Estimation in Coprime Sensor Arrays | IEEE Sensors Letters | DOI | View |
| 30-08-2023 | Development of a Carbon Paste Sensor for Floral Classification of Honey Samples Using ANN | International Research Journal of Engineering and Technology | DOI | View |
| 30-08-2023 | Development of a Carbon Paste Sensor for Floral Classification of Honey Samples Using ANN | International Research Journal of Engineering and Technology | DOI | View |
| 30-06-2018 | Voltammetric sensor for electrochemical determination of the floral origin of honey based on a zinc oxide nanoparticle modified carbon paste electrode, | Journal of Sensors and Sensory Systems | DOI | View |
| 01-01-2017 | Development of metal oxide modified carbon paste based sensor for honey analysis using electronic tongue | Journal of Materials Today: Proceedings, 4 (2017) 9500-9504. ISSN: 2214-7853 / https://doi.org/10.1016/j.matpr.2017.06.212 | DOI | View |
| 14-03-2013 | Identification of monofloral honey using voltammetric electronic tongue | Journal of Food Engineering | DOI | View |
| Date | Title | Conference | DOI | Link |
|---|---|---|---|---|
| 23-02-2026 | Digital Simulation and Modelling for Forensic Analysis: A Case Study on Footprint Impression | National Conference on Advanced Instrumentation for Nuclear Physics, High-Energy Physics, and Medical Imaging 2026 | DOI | View |
| 29-05-2025 | A Reverse Logistics Model Based on Blockchain for The Construction Industry | International Conference on Mathematical Sciences : Emerging Applications in Engineering & Environmental Sustainability (ICMS 2025) | DOI | View |
| 10-01-2025 | AI-Enabled NPK Sensor System for Precision Floriculture | 7th Regional Science & Technology Congress, 2024-25 | DOI | View |
| 10-01-2025 | Blockchain-Enabled Internet of Things for Efficient Construction and Demolition Waste Management: A Framework for Industry 5.0 | 7th Regional Science & Technology Congress, 2024-25 | DOI | View |
| 19-12-2024 | Metal-Oxide Modified Electrode for Floral Identification of Honey Using Electronic Tongue- | International Conference on Energy, Materials and Information Technology (ICEMIT-2024) | DOI | View |
| 14-06-2024 | Blockchain-Enabled Internet of Things for Efficient Construction and Demolition Waste Management: A Framework for Industry 5.0 in Supply Chain Management | International Conference on Changing Dimensions of Business and Technology(ICCDBT-2024), pp. 45, June 2024. [CONFERENCE] | DOI | View |
| 28-04-2024 | Smart Farming with Blockchain-based IoT for Industry 5.0 | 31st State Science and Technology Congress (Region Three) | DOI | View |
| 28-03-2024 | Smart Farming with Blockchain-based IoT for Industry 5.0 | 31st State Science and Technology Congress (Region Three) | DOI | View |
| Date | Title | Book Title | Editor | ISBN | DOI | Link |
|---|---|---|---|---|---|---|
| 16-08-2021 | Optimum Power Flow scheduling with Valve-Point Effects using Barnacles Mating Optimization | , SPRINGER: International Conference on Communication, Devices and Computing, Haldia, India, 16-18th August 2021.ISSN 1876-1100 ISSN 1876-1119 (electronic)ISBN ISBN 978-981-16-9154-6/https://doi.org/10.1007/978-981-16-9154-6 Vol:851, pp 575–589 | Biplap Sikdar,Santi prasad Maity,Jaganath Samanta,Avishankar.s Roy | 978-981-16-9153-9 | DOI | View |
| Committee Name | Start Date | End Date |
|---|---|---|
| FDP ON EMERGING TRENDS AND CHALLENGES IN RENEWABLE ENERGY 17.11.2025-22.11.2025 | 10-11-2025 | 03-06-2026 |
| VISIT OF 2ND YEAR STUDENTS TO CDAC CENTRE FOR 3D PRINTING 2025-26 | 12-09-2025 | 03-06-2026 |
| FACULTY DEVELOPMENT PROGRAMME 2024-25 | 01-07-2024 | 03-06-2026 |
| INDUSTRY VISIT 2024-25 | 01-07-2024 | 03-06-2026 |
| Title | Patent Number | Patent Office | Date | Status | Country | Application No. | Abstract | Expiration Date |
|---|---|---|---|---|---|---|---|---|
| AI-Driven Digital Beamforming Antenna Apparatus | 6494565 | Designs and Trade Marks Intellectual Property Office, UK, UK.GOV | 09-02-2026 | Design Registered, Granted | United Kingdom | 6494565 | 01-01-2030 | |
| AI Enabled Computing Device for Signal Processing in 6G network | 6452141 | Designs and Trade Marks Intellectual Property Office, UK, UK.GOV | 09-07-2025 | Design Registered | United Kingdom | 6452141 | This design presents a compact, modular computing device optimized for intelligent signal processing tasks in 6G communication environments. The device integrates AI-driven computational units with advanced telecommunication interfaces to support real-time processing of high-bandwidth signals at the network edge. Housed in a streamlined form factor, the design facilitates efficient data acquisition, beamforming, channel estimation, and spatial signal processing across a wide range of 6G applications. It supports various hardware accelerators (e.g., FPGA, AI chips) and is equipped with configurable input/output ports for seamless integration with antenna arrays and smart network infrastructure. The exterior layout incorporates structural provisions for thermal regulation, modular stacking, and embedded status indicators, making it suitable for edge deployments in vehicular systems, drones, smart cities, and IoT nodes. The innovative combination of AI capability, signal processing efficiency, and practical hard | 01-01-1001 |
| A printing system to improve the precision and quality of printed products | B41J 2/01 | Bundesrepublik Deutschland (Federal Republic of Germany) | 24-08-2024 | IP right granted | Federal Republic of Germany | 20 2024 104 244.1 | This patent application presents an advanced method for enhancing precision and quality in printing technology through the use of a modified co-prime sensor array configuration combined with a novel variable step size Normalized Least Mean Squares (NLMS) algorithm. Traditional printing systems face challenges in achieving precise alignment, high-resolution scanning, and effective noise reduction. The proposed method addresses these challenges by leveraging the unique arrangement of modified co-prime sensors, offering enhanced spatial resolution and noise robustness. By integrating the variable step size NLMS algorithm, the proposed approach significantly improves the accuracy and efficiency of critical printing processes, making it highly suitable for applications in high-resolution printing, advanced scanning, and quality control in both 2D and 3D printing systems. | 01-01-0001 |