B. Tech, M. Tech (BPUT),

Ph. D. (Utkal University, IGIT, Sarang- Nodal Centre),

Post Doc. (SU)

Image and Video Processing, Machine Learning & Deep Learning, IoTs and Sensor Network, Recommender Systems 

PMEC – Since 25.07.2016

JAVA, C, C++, Data Structure, Data Base Management System ,Design Analysis & Algorithm ,Theory of Computation, Compiler Design ,Computer Graphics ,Operating System, Computer Network

1. BHUBANANANDA DAS Gold Medal in M.Tech (University Topper), BPUT

2. Bidyalaya Gaurav Award

3. Obedient Student Award

4. Sadananda Memorial Award, Institute of Engineers, India (Odisha State Center)

5. Awarded by SIESRP, Chennai, India for Teaching and Research 

6. BPUT-University Foundation Day Research Award in CSE.

7.  Won Best PDF Researcher with Good Performance in Research Conclave 2023, Srinivas University, Mangalore, India.

8. Institution Award, Institute of Engineers, India (Odisha State Center)

9. J. N. Panda Memorial Award, Institute of Engineers, India (Odisha State Center)

M.Tech (02)

Ph. D. ( 04 ongoing)

1. Asst. Superintendent, Boys Hostel-1
2. Asst. Superintendent, Exams
3. Dept. Faculty Coordinator, T&P, Research, Industrial Visit, Agile Society
4. Faculty Coordinator, Apmosys Training
5. Faculty Coordinator, Coding Club 
6. Faculty Advisor Sports
7. FC, SAP Training
8. FA, Idea & Innovation Cell

[1] “Method and System for Managing Resource Scarcity in Cloud-Fog Based Internet of Things (IoT) Applications,” Indian Patent 554732, Nov. 21, 2024. Application no. 202231015642, published Apr. 22, 2022. (Granted)

[2] “Method and System for Secured Device-to-Device Communication in Peer-to-Peer Network,” Indian Patent 560565, Feb. 18, 2025. Application no. 202231022619, published May 20, 2022. (Granted)

[3] “Vehicle Bottom Cleaning Device,” Indian Design Patent 407126-001, Feb. 10, 2024. Application no. 407143-001, Journal no. 18/2024. (Granted)

[4] “IoT-Based Elbow Crutch with Quadripod Base,” Indian Design Patent 429072-001, Sep. 02, 2024. (Granted)

[5] “IOT ENABLED SAFETY HELMET FOR MINING PERSONNEL” Indian Design Patent 487681-001, Jan. 19, 2026. (Granted)

WASET, ISRD, OITS, IACSIT, IAENG, SDIWC, IAET, IAE, IRED, UACEE, ISID, ISEI, ISMR, ISEIS, WLA, ISTE, I2OR

[1] K. K. Jena, S. K. Bhoi, S. K. Panda, and R. P. Nayak, “A novel algorithm for consumer credibility estimation in cloud-internet of things systems,” International Journal of Information Technology, vol. 17, no. 8, pp. 4619–4629, 2025.

[2] S. Nibedita, K. K. Jena, and S. K. Bhoi, “A nonce challenge based authentication scheme for secured task offloading in edge,” in Proc. 5th Int. Conf. Machine Learning, IoT and Big Data, 2025.

[3] K. K. Jena, S. K. Bhoi, and S. K. Panda, “Enhancing data credibility in 6G-enabled IoT-fog environment using secured blockchain scheme,” Cluster Computing, vol. 28, no. 7, p. 440, 2025.

[4] S. Nibedita, K. K. Jena, and S. K. Bhoi, “A nonce challenge based authentication scheme for secured task offloading in edge computing,” in Proc. Int. Conf. Machine Learning, IoT and Big Data, pp. 59–69, 2025.

[5] S. K. Bhoi, K. K. Jena, C. Mallick, D. Mohapatra, R. P. Nayak, S. Padhan, et al., “An AI-based analysis for prediction of cost effective living style for people using electric vehicles,” 2025.

[6] K. K. Jena, S. K. Bhoi, and S. K. Panda, “Smart municipal services and predictive healthcare: A thermal imaging perspective,” in Proc. 64th Annual Technical Session, Institution of Engineers (India), 2025.

[7] S. K. Bhoi et al., “An AI-based analysis for prediction of cost effective living style for people using electric vehicles,” IEJ, 2025.

[8] R. R. S. K. K. Jena, S. K. Bhoi, D. Mohapatra, and C. Mallick, “Method and system for secured device-to-device communication in peer-to-peer network,” Indian Patent 560,565, 2025.

[9] A. K. Panigrahi, C. Mallick, K. K. Jena, and S. K. Bhoi, “Phishing URL unmasking using ensemble intelligence to support cyber security,” in Proc. OITS Int. Conf. Information Technology (OCIT), pp. 30–35, 2024.

[10] C. Mallick, S. K. Bhoi, K. K. Jena, and D. Mohapatra, “An efficient course assignment technique based on teachers rating to support higher education systems,” in Advances on Mathematical Modeling and Optimization with Its Applications, 2024.

[11] S. K. Bhoi et al., “Sentiment analysis of pandemic tweets using combination of lexicon and supervised machine learning based approaches,” IJTE, 2024.

[12] D. S. K. Bhoi et al., “IoT based elbow crutch with quadripod base,” Indian Patent 429072-001, 2024.

[13] S. K. Bhoi, K. K. Jena, and D. Mohapatra, “Method and system for managing resource scarcity in cloud-fog based internet of things (IoT) applications,” Indian Patent 554,732, 2024.

[14] V. L. R. P. S. K. Bhoi et al., “Vehicle bottom cleaning device,” Indian Patent 407143-001, 2024.

[15] S. K. Bhoi, K. K. Jena, and C. R. Mallick, “A machine intelligent framework for detection of ozone layer depletion zone using internet of things,” IEJ, vol. 17, no. 11, pp. 35–40, 2024.

[16] K. K. Jena, S. K. Bhoi, and C. R. Mallick, “Explainable-AI based MPOX disease detection using skin lesion image analysis,” IJTE, vol. 47, no. 2, pp. 47–56, 2024.

[17] A. K. Roy, K. K. Jena, and D. Mohapatra, “Water pumping requirement prediction in irrigation system using internet of things-assisted machine intelligence-based approach,” in Proc. Int. Conf. Advances in Computational Intelligence, 2024.

[18] K. K. Jena, S. K. Bhoi, and S. R. Nayak, “Analysis of Mandelbrot set fractal images using a machine learning based approach,” in Intelligent Fractal-Based Image Analysis, pp. 33–45, 2024.

[19] A. K. Panigrahi, C. Mallick, and K. K. Jena, “A machine intelligence based approach for the prediction of human heart disease,” in Proc. OITS Int. Conf. Information Technology (OCIT), pp. 174–177, 2024.

[20] A. K. Roy, K. K. Jena, and D. Mohapatra, “Water pump health prediction in industrial wireless sensor network using supervised learning,” in Proc. OITS Int. Conf. Information Technology (OCIT), pp. 178–183, 2024.

[21] K. K. Jena, S. K. Bhoi, S. Mohapatra, and S. Bakshi, “A hybrid deep learning approach for classification of music genres using wavelet and spectrogram analysis,” Neural Computing and Applications, vol. 35, no. 15, pp. 11223–11248, 2023.

[22] K. K. Jena, S. K. Bhoi, D. Mohapatra, C. Mallick, K. S. Sahoo, and A. Nayyar, “A fuzzy rule based machine intelligence model for cherry red spot disease detection of human eyes in IoMT,” Wireless Networks, vol. 29, no. 1, pp. 247–265, 2023.

[23] K. K. Jena, S. K. Bhoi, T. K. Malik, K. S. Sahoo, N. Z. Jhanjhi, S. Bhatia, and F. Amsaad, “E-learning course recommender system using collaborative filtering models,” Electronics, vol. 12, no. 1, p. 157, 2022.

[24] K. K. Jena, S. K. Bhoi, K. D. Naik, C. Mallick, and R. P. Nayak, “SqueezeNet deep neural network embedder-based brain tumor classification using supervised machine intelligent approach,” in Proc. ICDICI, pp. 337–348, 2022.

[25] S. K. Bhoi, K. K. Jena, K. D. Naik, C. Mallick, and R. P. Nayak, “Detection of malicious unmanned aerial vehicle carrying unnecessary load using supervised machine intelligence model with SqueezeNet deep neural network image embedder,” in Data Intelligence and Cognitive Informatics: Proc. ICDICI 2022, pp. 349–361, 2022.

[26] S. K. Bhoi, K. K. Jena, K. D. Naik, C. Mallick, and R. P. Nayak, “Model with SqueezeNet deep neural network image embedder,” in Data Intelligence and Cognitive Informatics: Proc. ICDICI 2022, p. 349, 2022. (Note: appears duplicate/partial entry)

[27] K. K. Jena, S. R. Nayak, S. K. Bhoi, K. D. Verma, D. Prakash, and A. Gupta, “A novel service robot assignment approach for COVID-19 infected patients: A case of medical data driven decision making,” Multimedia Tools and Applications, vol. 81, no. 29, pp. 41995–42021, 2022.

[28] K. K. Jena, S. K. Bhoi, S. R. Nayak, R. Panigrahi, and A. K. Bhoi, “Deep convolutional network based machine intelligence model for satellite cloud image classification,” Big Data Mining and Analytics, vol. 6, no. 1, pp. 32–43, 2022.

[29] D. Mohapatra, S. K. Bhoi, K. K. Jena, K. S. Sahoo, A. Nayyar, and M. A. Shah, “Rank-label anonymization for the privacy-preserving publication of a hypergraph structure,” IEEE Access, vol. 10, pp. 118253–118267, 2022.

[30] K. K. Jena, “Classification of breast ultrasound images: An analysis using machine intelligent based approach,” 2022.

[31] K. K. Jena, “A machine intelligent based approach for the classification and analysis of tomato leaf disease images,” 2022.

[32] K. K. Jena, “Alzheimer disease MRI preprocessed images: A machine intelligent based approach for classification and analysis,” 2022.

[33] K. K. Jena, “Classification and analysis of weather images using machine intelligent based approach,” 2022.

[34] S. K. Bhoi, C. Mallick, R. P. Nayak, D. Mohapatra, and K. K. Jena, “Estimating the category of districts in a state based on COVID test positivity rate (TPR): A study using supervised machine learning approach,” in Advances in Distributed Computing and Machine Learning, 2022.

[35] K. K. Jena, S. K. Bhoi, M. Prasad, and D. Puthal, “A fuzzy rule-based efficient hospital bed management approach for coronavirus disease-19 infected patients,” Neural Computing and Applications, vol. 34, no. 14, pp. 11361–11382, 2022.

[36] K. K. Jena, S. K. Bhoi, C. Mallick, S. R. Jena, R. Kumar, H. V. Long, and N. T. K. Son, “Neural model based collaborative filtering for movie recommendation system,” International Journal of Information Technology, vol. 14, no. 4, pp. 2067–2077, 2022.

[37] D. Mohapatra, S. K. Bhoi, C. Mallick, K. K. Jena, and S. Mishra, “Distribution preserving train-test split directed ensemble classifier for heart disease prediction,” International Journal of Information Technology, vol. 14, no. 4, pp. 1763–1769, 2022.

[38] D. Mohapatra, S. K. Bhoi, K. K. Jena, S. R. Nayak, and A. Singh, “A blockchain security scheme to support fog-based internet of things,” Microprocessors and Microsystems, vol. 89, p. 104455, 2022.

[39] D. Mohapatra, S. K. Bhoi, K. K. Jena, C. Mallick, K. S. Sahoo, N. Z. Jhanjhi, et al., “Core-based approach to measure pairwise layer similarity in multiplex network,” Intelligent Automation and Soft Computing, vol. 34, no. 1, pp. 51–64, 2022.

[40] S. K. Bhoi, S. K. Panda, K. K. Jena, K. S. Sahoo, N. Z. Jhanjhi, M. Masud, et al., “IoT-EMS: An internet of things based environment monitoring system in volunteer computing environment,” Intelligent Automation and Soft Computing, vol. 32, no. 3, pp. 1493–1507, 2022.

[41] K. K. Jena, S. K. Bhoi, S. Behera, R. Kumar, H. V. Long, and N. T. K. Son, “A social media sentiment analysis: Machine intelligence model for worldwide COVID-19 vaccination using Twitter data,” 2021.

[42] K. K. Jena, S. K. Bhoi, C. Mallick, D. Mohapatra, and P. Swain, “Classification of malaria parasitized and uninfected images using machine learning approach,” in Proc. 5th Int. Conf. I-SMAC (IoT in Social, Mobile, Analytics and Cloud), 2021.

[43] K. K. Jena, S. K. Bhoi, D. Mohapatra, C. Mallick, and P. Swain, “Rice disease classification using supervised machine learning approach,” in Proc. 5th Int. Conf. I-SMAC (IoT in Social, Mobile, Analytics and Cloud), 2021.

[44] S. K. Bhoi, S. K. Panda, C. Mallick, and K. K. Jena, “Impact of road architecture and design on performance of city-based VANETs,” Open Computer Science, vol. 11, no. 1, pp. 423–436, 2021.

[45] A. Sahu, S. Mishra, and K. K. Jena, “A machine intelligence based model for the classification of Odia printed and handwritten images,” Ilkogretim Online, vol. 20, no. 5, 2021.

[46] S. K. Bhoi, K. K. Jena, S. K. Panda, H. V. Long, R. Kumar, P. Subbulakshmi, et al., “An internet of things assisted unmanned aerial vehicle based artificial intelligence model for rice pest detection,” Microprocessors and Microsystems, vol. 80, p. 103607, 2021.

[47] K. K. Jena, S. K. Bhoi, S. R. Nayak, and C. Mallick, “Machine learning-based virus type classification using transmission electron microscopy virus images,” in Machine Vision Inspection Systems, Volume 2, 2021.

[48] S. K. Bhoi, S. K. Panda, K. K. Jena, P. A. Abhisekh, K. S. Sahoo, N. U. Sama, et al., “Prediction of diabetes in females of Pima Indian heritage: A complete supervised learning approach,” Turkish Journal of Computer and Mathematics Education, vol. 12, no. 10, pp. 3074–3084, 2021.

[49] C. Mallick, S. K. Bhoi, K. K. Jena, K. S. Sahoo, M. Humayn, and M. H. Shahd, “CLAPS: Course and lecture assignment problem solver for educational institution using Hungarian method,” Turkish Journal of Computer and Mathematics Education, vol. 12, no. 10, pp. 3085–3092, 2021.

[50] K. K. Jena, S. K. Bhoi, S. R. Nayak, and C. R. Pattanaik, “Machine learning-based classification: An analysis based on COVID-19 transmission electron microscopy images,” International Journal of Computer Applications in Technology, vol. 66, no. 3–4, pp. 350–361, 2021.

[51] K. K. Jena, S. R. Nayak, S. Mishra, and S. Mishra, “Vehicle number plate detection: An edge image based approach,” in Progress in Advanced Computing and Intelligent Engineering, 2020.

[52] S. Lenka, S. Kumar, S. Mishra, and K. K. Jena, “An IoT-cloud based fractal model for brain tumor image analysis,” in Proc. 4th Int. Conf. I-SMAC (IoT in Social, Mobile, Analytics and Cloud), 2020.

[53] S. K. Bhoi, S. K. Panda, K. K. Jena, C. Mallick, and A. Khan, “A fuzzy approach to identify fish red spot disease,” Grey Systems: Theory and Application, vol. 10, no. 3, pp. 249–263, 2020.

[54] K. K. Jena, S. Mishra, S. Mishra, and S. K. Bhoi, “Stored grain pest identification using an unmanned aerial vehicle (UAV)-assisted pest detection model,” in Machine Vision Inspection Systems, 2020.

[55] C. Mallick, S. K. Bhoi, S. K. Panda, and K. K. Jena, “An efficient learning algorithm for periodic perceptron to test XOR function and parity problem,” SN Applied Sciences, vol. 2, no. 2, p. 160, 2020.

[56] S. K. Bhoi, K. K. Jena, A. Jena, B. C. Panda, S. Singh, and P. Behera, “A reputation deterministic framework for true event detection in unmanned aerial vehicle network (UAVN),” in Proc. Int. Conf. Information Technology (ICIT), pp. 257–262, 2019.

[57] S. K. Bhoi, K. K. Jena, G. V. Maniharika, S. Muduli, R. Sahoo, and D. Bhol, “Detection of intended and unintended misbehaviors in unmanned aerial vehicle network (UAVN),” in Proc. Int. Conf. Information Technology (ICIT), pp. 222–227, 2019.

[58] K. K. Jena, S. Mishra, S. Mishra, and S. K. Bhoi, “Unmanned aerial vehicle assisted bridge crack severity inspection using edge detection methods,” in Proc. 3rd Int. Conf. I-SMAC (IoT in Social, Mobile, Analytics and Cloud), 2019.

[59] K. K. Jena, S. K. Bhoi, B. D. Behera, S. Panda, B. Sahu, and R. Sahoo, “A trust based false message detection model for multi-unmanned aerial vehicle network,” in Proc. 3rd Int. Conf. I-SMAC (IoT in Social, Mobile, Analytics and Cloud), 2019.

[60] S. Lenka, S. Kumar, S. Mishra, K. K. Jena, M. L. Liya, M. Aswathy, S. A. Waheed, et al., “4th international conference on I-SMAC (IoT in social, mobile, analytics and cloud),” Machine Learning, vol. 161, p. 30, 2019.

[61] K. K. Jena and S. N. M. Mishra, “2L-ESB: A two level security scheme for edge based image steganography,” International Journal on Emerging Technologies, 2019.

[62] K. K. Jena and S. N. M. Mishra, “MRI brain tumor image analysis using fuzzy rule based approach,” Journal of Research on the Lepidoptera, 2019.

[63] K. K. Jena, S. K. Bhoi, M. K. Nayak, C. K. Baral, D. M. K. Patro, and S. S. Mohanty, “A smart watering system using IoT,” 2019.

[64] K. K. Jena, S. K. Bhoi, P. K. Maharana, P. R. Das, and P. K. Senapati, “A smart and secure home automation system using IoT,” 2019.

[65] K. K. Jena, S. Mishra, S. Mishra, and S. K. Bhoi, “An entropy based thresholding approach for image edge detection,” 2019.

[66] K. K. Jena, A. R. S. Mishra, and S. N. Mishra, “A study on OpenMP and irregular programming,” International Journal of Distributed Computing and Technology, 2018.

[67] K. K. Jena, “i18n framework in C++,” International Journal of Distributed Computing and Technology, vol. 3, no. 1, pp. 1–4, 2017.

[68] K. K. Jena, “Edge detection of image: Application of MPMP methodology,” International Journal of Image Processing and Pattern Recognition, vol. 3, no. 2, pp. 49–54, 2017.

[69] K. K. Jena, “Edge detection of image: A programmatic combination of MBP operators,” International Journal of Software Computing and Testing, vol. 3, no. 2, pp. 13–20, 2017.

[70] K. K. Jena and S. Mishra, “Development of a novel algorithmic approach for several digital image processing and analysis,” International Journal of Advanced Research in Computer Science and Software Engineering, 2017.

[71] K. K. Jena and A. Rahman, “i18n framework in C++,” International Journal of Distributed Computing and Technology, vol. 3, no. 1, 2017. (duplicate variant)

[72] K. K. Jena, “CSPC: A new approach for edge detection of gray-scale images,” International Journal of Distributed Computing and Technology, vol. 2, no. 1, pp. 1–6, 2016.

[73] S. Mishra and K. K. Jena, “Edge detection of images: An application of CR methodology,” International Journal of Image Processing and Pattern Recognition, vol. 1, no. 1, pp. 9–13, 2016.

[74] K. K. Jena and S. M. S. N. Mishra, “LMS: A novel approach for edge detection of images,” International Journal of Application or Innovation in Engineering and Management, 2016.

[75] K. K. Jena, “An improved approach for edge detection of noisy images,” International Journal of Distributed Computing and Technology, vol. 2, no. 1, 2016.

[76] K. K. Jena and S. N. Mishra, “Edge detection of gray-scale images: Application of M-S-M-S technique,” International Journal of Software Computing and Testing, 2016.

[77] K. K. Jena and S. N. Mishra, “An effective methodology for edge detection of gray-scale images,” International Journal of Computer Science and Programming Language, vol. 1, no. 2, 2016.

[78] K. K. Jena and S. Mishra, “Construction of interval-valued fuzzy relations using RPB methodology: A survey on edge detection of images,” International Journal of Distributed Computing and Technology, vol. 1, no. 1, pp. 11–16, 2015.

[79] K. K. Jena, S. Mishra, and S. Mishra, “An effective methodology for edge detection of gray-scale images,” International Journal of Computer Science & Programming Languages, vol. 1, no. 2, pp. 7–12, 2015.

[80] S. Mishra and K. K. Jena, “Edge detection of images: An analysis using BSP technique,” International Journal of Software Computing and Testing, vol. 1, no. 1, pp. 21–26, 2015.

[81] K. K. Jena and S. Mishra, “A survey on edge detection of images using MPL approach,” International Journal of Software Computing and Testing, vol. 1, no. 1, pp. 14–20, 2015.

[82] S. Mishra and K. K. Jena, “A comparative study and survey on edge detection of images using SMP approach,” International Journal of Computer Science & Programming Languages, vol. 1, no. 1, pp. 7–13, 2015.

[83] K. K. Jena and S. Mishra, “Edge detection of images: An experiment using PLS methodology,” International Journal of Computer Science & Programming Languages, vol. 1, no. 1, pp. 1–6, 2015.

[84] K. K. Jena, “Application of COM-SOBEL operator for edge detection of images,” IJISET: International Journal of Innovative Science, Engineering & Technology, vol. 2, no. 4, pp. 48–51, 2015.

[85] S. Mishra, K. K. Jena, and S. N. Mishra, “Result analysis of edge detection of brighter satellite images: A comparative study of new and existing techniques,” International Journal of Advanced Research in Computer Engineering & Technology (IJARCET), vol. 4, no. 2, pp. 491–495, 2015.

[86] K. K. Jena and S. Mishra, “Application of COM-LOG technique for edge detection of images: An emerging methodology,” International Journal of Image Processing and Pattern Recognition, vol. 1, no. 1, 2015.

[87] K. K. Jena and S. Mishra, “A quantitative approach for edge detection of images,” International Journal of Research in Computer Science, vol. 2, no. 1, 2015.

[88] K. K. Jena, “Edge detection of images: A step ahead of conventional mechanism,” International Journal of Research in Computer Science, vol. 2, no. 1, 2015.

[89] S. Panda and K. K. Jena, “An innovative approach for edge detection of images,” IJISET: International Journal of Innovative Science, Engineering & Technology, vol. 2, no. 4, 2015.

[90] S. Mishra and K. K. Jena, “Combination of Sobel-Rothwell-Bergholm edge detectors: An experimental study for edge detection of images,” International Journal of Image Processing and Pattern Recognition, vol. 1, no. 1, 2015.

[91] K. K. Jena and S. Mishra, “Construction of fuzzy relations to generate the edge of images using BR edge detectors,” Journal of Image Processing and Artificial Intelligence, vol. 1, no. 2, 2015.

[92] S. Mishra and K. K. Jena, “An efficient approach for edge detection of images: A step beyond the traditional methodology,” Journal of Image Processing and Artificial Intelligence, vol. 1, no. 1, 2015.

[93] S. Mishra and K. K. Jena, “Edge detection of images: An application of SR technique,” Journal of Image Processing and Artificial Intelligence, vol. 1, no. 1, 2015.

[94] K. K. Jena, “A quantitative combination of C-S edge detection specifically for edge detection of gray-scale images,” International Journal of Algorithms Design and Analysis, vol. 1, no. 1, 2015.

[95] K. K. Jena, S. Mishra, and S. N. Mishra, “Edge detection of satellite images: A comparative study,” International Journal of Innovative Science, Engineering & Technology, 2015.

[96] K. K. Jena, “Result analysis of different image edges by applying existing and new techniques,” International Journal of Computer Science, Information Technology and Engineering, 2015.

[97] K. K. Jena, “A new programming and mathematical approach to improve the edge detection of brighter images,” International Journal of Advanced Research in Computer Science and Software Engineering, 2015.

[98] K. K. Jena, “A study on performance analysis of different parallel algorithms implemented for geometric problems,” International Advanced Research Journal in Science, Engineering and Technology, 2015.

[99] K. K. Jena, “Application of a novel approach for edge detection of images,” Journal of Image Processing and Artificial Intelligence, vol. 1, no. 1, pp. 1–6, 2015.

[100] K. K. Jena, S. Routray, and A. Rahman, “Improving edge detection of dark images using fuzzy method,” International Journal of Advanced Technology in Engineering and Science (IJATES), vol. 3, no. 1, 2015.

[101] K. K. Jena, S. K. Bhoi, T. K. Malik, K. S. Sahoo, N. Z. Jhanjhi, S. Bhatia, and F. Amsaad, “E-learning course recommender system using collaborative filtering models,” Electronics (Switzerland), vol. 12, no. 1, Art. no. 157, 2023.

[102] Roy, A. K., Jena, K. K., & Mohapatra, D. (2026). Quantum Inspired Data Driven Fitness Monitoring Approach for Industrial Machinery. Journal of The Institution of Engineers (India): Series B, 1-18.

[1] “Development of a Lightweight Employee Payroll Management System,” Apay Tech. & Sol. Pvt. Ltd., Aug. 2023–Aug. 2024, Duration: 1 year, Funding: ₹0.30238 Lakhs, Role: Principal Investigator.

[2] “Development of a Secured Authentication-Based Online Examination System,” Apay Tech. & Sol. Pvt. Ltd., Aug. 2023–Aug. 2024, Duration: 1 year, Funding: ₹0.118 Lakhs, Role: Co-Principal Investigator.

[1] “Problem Solving Through Programming in C,” NPTEL-AICTE, Jul. 2023 – Oct. 2023.

[2] “Programming in Java,” NPTEL-AICTE, Jan. 2025 – Apr. 2025.

[3] “8 Modules Course,” NITTT-AICTE, Aug. 2021 – Sep. 2021.

[4] “Industrial Training on Artificial Intelligence and Machine Learning,” NSIC (MSME, Govt. of India Enterprise) – Enflare Technologies, Mar. 7–21, 2022.

[5] “Industrial Training on Drone Technology,” NSIC (MSME, Govt. of India Enterprise) – Enflare Technologies, Jul. 4–18, 2022.

[6] “AWS Academy Solutions Architect,” EduSkills & AWS Academy (Govt. of Odisha), Jul. 21 – Aug. 2, 2022.

[7] “Mentor Based Training,” NITTT (Ministry of Education, Govt. of India), Sep. – Nov. 2022.

[8] “Industrial Training on EV Technology,” NSIC (MSME, Govt. of India Enterprise), Aug. 7–21, 2023.

[9] “Water Pumping Requirement Prediction in Irrigation System Using Internet of Things Assisted Machine Intelligence Based Approach,” in Proc. 2nd Int. Conf. on Advances in Computational Intelligence and Informatics (ICACII 2023), Springer (Scopus Indexed), Anurag University, Andhra Pradesh, India, Dec. 22–23, 2023.

[10] “A Machine Intelligence Based Approach for the Prediction of Human Heart Disease,” in Proc. 21st OITS Int. Conf. on Information Technology (OCIT 2023), IEEE (Scopus Indexed), NIT Raipur, India, Dec. 13–15, 2023.

[11] “Application of Machine Intelligence Based Approach for the Prediction of Subject Category to Support National Education Policy 2020,” in Proc. 24th Annual Faculty Convention of ISTE Odisha Section and National Seminar on NEP 2020, PMEC Berhampur, India, Jun. 7–8, 2023.

[12] “Detection of Malicious Unmanned Aerial Vehicle Carrying Unnecessary Load Using Supervised Machine Intelligence Model with SqueezeNet Deep Neural Network Image Embedder,” in Proc. Int. Conf. on Data Intelligence and Cognitive Informatics, Springer (Scopus Indexed), India, Jul. 6–7, 2022.

[13] “Machine Learning and Deep Learning Sessions,” Summer Training cum Internship Program on Machine Learning and Deep Learning using PARAM SHAVAK, PMEC Berhampur and Centre of Excellence (HPC), India, Jun. 24 – Aug. 10, 2021.

[14] “Advantages of Coding for Society Development,” One Week Coding Awareness Workshop Programme, CDD Club, PMEC Berhampur, India, Mar. 1–6, 2023.

[15] “Applications of Classification Techniques in Machine Learning,” One Week Coding Awareness Workshop Programme, CDD Club, PMEC Berhampur, India, Mar. 1–6, 2023.

[16] “A Fuzzy Rule-Based Efficient Hospital Bed Management Approach for COVID-19 Infected Patients,” University Foundation Day Research Seminar, BPUT Rourkela, India, Nov. 21, 2022.

[17] “Impact of Coding for Problem Solving,” One Week Coding Awareness Workshop, CDD Club, PMEC Berhampur, India, Sep. 28 – Oct. 3, 2023.

[18] “Importance of Computer Programming in Daily Life,” Seminar at Navajyoti Group of Institutions, Bhubaneswar, India, Nov. 23, 2023.

[19] “Robotics,” Expert Talk at PM SHRI Kendriya Vidyalaya, Berhampur, India, Feb. 7, 2024.

[20] “Coding for Practical Solutions,” One Week Coding Awareness Workshop (CAW-2024), CDD Club, PMEC Berhampur, India, Oct. 26 – Nov. 2, 2024.

[21] “Fundamentals of Web Development,” Two Week Web Development Master Class Programme, CDD Club, PMEC Berhampur, India, Jan. 24 – Feb. 7, 2025.

[1] Seminar on “Graph-Theoretic Approach for Topology Control of Wireless Sensor Networks,” PMEC, Berhampur, India, May 2, 2022, 1 day, Role: Coordinator.

[2] Industry-Oriented Training Programme on “Robotic Process Automation Using UiPath,” Dept. of CSE, PMEC, Berhampur, India, Aug. 1–7, 2022, 1 week, Role: Coordinator.

[3] “Coding Awareness Workshop,” CDD Club, PMEC, Berhampur, India, Mar. 1–6, 2023, 1 week, Role: Co-Coordinator.

[4] Seminar on “AI & ML,” Dept. of CSE, PMEC, Berhampur, India, Sept. 27, 2023, 1 day, Role: Coordinator.

[5] “Coding Awareness Workshop,” CDD Club, PMEC, Berhampur, India, Sept. 28–Oct. 3, 2023, 1 week, Role: Coordinator.

[6] “GIT & GitHub Workshop,” Dept. of CSE, PMEC, Berhampur, India, Oct. 9–13, 2023, 1 week, Role: Coordinator.

[7] “Summer Internship on Machine Learning and Deep Learning on Supercomputer,” Dept. of CSE, PMEC, Berhampur, India, June 20–July 15, 2024, 25 days, Role: Coordinator.

[8] “Coding Awareness Workshop,” CDD Club, PMEC, Berhampur, India, Oct. 26–Nov. 2, 2024, 1 week, Role: Coordinator.

[9] “Web Development Master Class Programme,” CDD Club, PMEC, Berhampur, India, Jan. 24–Feb. 7, 2025, 2 weeks, Role: Coordinator.

[10] ICORSVB-2025 Conference, PMEC, Berhampur, India, Feb. 21–22, 2025, 2 days, Roles: Hospitality & Logistics Committee Member; Publications & Souvenir Committee Member.

[11] 5th ICMIB-2025 Conference, PMEC, Berhampur, India, Apr. 4–6, 2025, 3 days, Roles: Publicity Chair; Hospitality Chair; FIC (Banner, Certificates, Nameplates, Guest Coupons, ID Cards, Schedule & Inaugural Agenda).

Room 419, Dept. of Computer Science and Engineering,

Parala Maharaja Engineering College, pin 761003, Berhampur, Dist: Ganjam, Odisha