Supriya M H | Electronics | Research Excellence Award

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Prof. Dr. Supriya M H | Electronics | Research Excellence Award

Cochin University of Science and Technology | India

Dr. Supriya M.H. is a distinguished Professor in the Department of Electronics at Cochin University of Science and Technology with extensive experience at both undergraduate and postgraduate levels as well as in industry. She holds a B.Tech in Electrical Engineering, M.Tech and Ph.D. in Electronics, a Diploma in Unix & C, and an MBA in Information Technology. With over two decades of teaching experience and active involvement in research, Dr. Supriya has guided multiple Ph.D. students and has been recognized with numerous awards and recognitions for her contributions. Her research interests include underwater acoustics, target identification, underwater communication, signal processing, computer technology, and machine learning, leading to significant outputs in publications and patents. She has led several nationally and internationally funded projects with substantial total outlay, demonstrating her capability in research management and innovation. Dr. Supriya has authored over 178 publications, holds multiple patents, and has been cited over 1,210 times, with an h-index of 15 and i10-index of 25. She has also played key roles in organizing and coordinating symposia, workshops, and training programs, contributing to academic development. Her leadership in academic and professional bodies reflects her commitment to advancing electronics research and mentoring the next generation of researchers.

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Featured Publications

Pranav, E., Kamal, S., Chandran, C. S., & Supriya, M. H. (2020). Facial emotion recognition using deep convolutional neural network. In Proceedings of the 6th International Conference on Advanced Computing and Communication (pp. …).

Jose, E., Greeshma, M., Haridas, M. T. P., & Supriya, M. H. (2019). Face recognition based surveillance system using FaceNet and MTCNN on Jetson TX2. In Proceedings of the 5th International Conference on Advanced Computing & Communication (pp. …).

Kamal, S., Mohammed, S. K., Pillai, P. R. S., & Supriya, M. H. (2013). Deep learning architectures for underwater target recognition. In Proceedings of Ocean Electronics (SYMPOL) (pp. 48–54).

Nezla, N. A., Haridas, T. P. M., & Supriya, M. H. (2021). Semantic segmentation of underwater images using U-Net architecture based deep convolutional encoder-decoder model. In Proceedings of the 7th International Conference on Advanced Computing and Communication (pp. …).

Sherin, B. M., & Supriya, M. H. (2015). Selection and parameter optimization of SVM kernel function for underwater target classification. In IEEE Underwater Technology (UT) (pp. 1–5).

Tarun Katheriya | Electrochemistry | Research Impact Award

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Dr. Tarun Katheriya | Electrochemistry | Research Impact Award

IIT BHU Varanasi | India

Rishabh Chalotra is a CSIR-Senior Research Fellow and doctoral scholar at the Laboratory of Neuroendocrinology and Metabolic Disorders, Department of Pharmacology, Central University of Punjab. His research focuses on addressing the complexities of Metabolic Syndrome through preclinical studies, exploring the therapeutic potential of natural phytoconstituents, and developing herbal-based solutions for improved clinical outcomes. He holds a Master’s degree in Pharmacology and a Bachelor’s degree in Pharmacy, with extensive experience in animal models, biochemical assays, pharmacokinetic studies, ELISA, RT-PCR, flow cytometry, and other advanced laboratory techniques. Rishabh has contributed to 18 peer-reviewed articles, six book chapters, and four patents, with his work cited 127 times, reflecting an h-index of 6 and an i10-index of 5. His publications explore metabolic disorders, diabetic complications, neurodegenerative diseases, and drug discovery, highlighting the role of flavonoids and natural compounds in therapeutic interventions. He has received the Young Investigator Award from the Indian Pharmacological Society and is a lifetime member of professional societies including the Indian Pharmacological Society, American Society for Microbiology, and British Pharmacological Society. His research combines experimental pharmacology with translational applications to bridge knowledge gaps and improve patient outcomes, positioning him as a promising contributor to global pharmacological research.

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Featured Publication

Nirala, G., Yadav, D., Katheriya, T., & Upadhyay, S. (2022). Temperature dependent negative permittivity in solid solutions Sr₂Mn₁₋ₓSnₓO₄ (x = 0, 0.3, 0.5). Journal of the European Ceramic Society, 42(2), 453–461.

Mishra, R. K., Avinashi, S. K., Kumari, S., Nain, R., Katheriya, T., Dwivedi, R. K., … Gautam, C. (2024). Synergistic doping effect of La₂O₃ on BaO-TiO₂-SiO₂ glass-ceramics: Evolution of physical, structural, morphological, and dielectric behaviour for electronics applications. Journal of Alloys and Compounds, 990, 174354.

Nirala, G., Katheriya, T., Yadav, D., Verma, H., & Upadhyay, S. (2023). The evolution of coil-less inductive behaviour in La-doped Sr₂MnO₄. Emergent Materials, 6(6), 1951–1962.

Katheriya, T., & Upadhyay, S. (2023). High temperature study of dielectric and electrical conduction behaviour of La₂NiO₄. Physica Scripta, 98(10), 105969.

Katheriya, T., Nirala, G., & Upadhyay, S. (2025). Study of negative permittivity in nanosized LaNiO₃ for electromagnetic interference shielding: A modified Drude model approach. ACS Applied Electronic Materials, 7(3), 1151–1162.

Rishabh Chalotra | Metabolic Disorders | Young Researcher Award

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Mr. Rishabh Chalotra | Metabolic Disorders | Young Researcher Award

Central University of Punjab | India

Rishabh Chalotra is a CSIR-Senior Research Fellow and doctoral scholar at the Laboratory of Neuroendocrinology and Metabolic Disorders, Department of Pharmacology, Central University of Punjab. His research focuses on addressing the complexities of Metabolic Syndrome through preclinical studies, exploring the therapeutic potential of natural phytoconstituents, and developing herbal-based solutions for improved clinical outcomes. He holds a Master’s degree in Pharmacology and a Bachelor’s degree in Pharmacy, with extensive experience in animal models, biochemical assays, pharmacokinetic studies, ELISA, RT-PCR, flow cytometry, and other advanced laboratory techniques. Rishabh has contributed to 18 peer-reviewed articles, six book chapters, and four patents, with his work cited 127 times, reflecting an h-index of 6 and an i10-index of 5. His publications explore metabolic disorders, diabetic complications, neurodegenerative diseases, and drug discovery, highlighting the role of flavonoids and natural compounds in therapeutic interventions. He has received the Young Investigator Award from the Indian Pharmacological Society and is a lifetime member of professional societies including the Indian Pharmacological Society, American Society for Microbiology, and British Pharmacological Society. His research combines experimental pharmacology with translational applications to bridge knowledge gaps and improve patient outcomes, positioning him as a promising contributor to global pharmacological research.

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Featured Publication

Chauhan, S., Chalotra, R., Rathi, A., Saini, M., Deol, S., Lard, M., & Gupta, S. (2023). Current approaches in healing of wounds in diabetes and diabetic foot ulcers. Current Bioactive Compounds, 19(3), 104–121.

Chalotra, R., Gupta, T., Chib, S., Amanat, M., Kumar, P., & Singh, R. (2024). Treatment of diabetic complications: Do flavonoids hold the keys? Critical Reviews in Food Science and Nutrition, 64(30), 11091–11112.

Maqbool, M., Chaudhary, K., Chalotra, R., Chauhan, S., & Dahiya, R. S. (2024). Phyto-pharmacology of most common Indian culinary spices and their potential in developing new pharmaceutical therapies. Current Traditional Medicine, 10(2), 117–140.

Sharma, K., Chib, S., Gupta, A., Singh, R., & Chalotra, R. (2024). Interplay between α-synuclein and parkin genes: Insights of Parkinson’s disease. Molecular Biology Reports, 51(1), 586.

Chib, S., Dutta, B. J., Chalotra, R., Abubakar, M., Kumar, P., Singh, T. G., & Singh, R. (2025). Role of flavonoids in mitigating the pathological complexities and treatment hurdles in Alzheimer’s disease. Phytotherapy Research, 39(2), 747–775.

Arjun Kumawat | Materials Science | Research Excellence Award

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Mr. Arjun Kumawat | Materials Science | Research Excellence Award

Vivekananda Global University, Jaipur | India

The researcher is a dedicated academic with a strong foundation in higher education within engineering and applied sciences, supported by relevant qualifications in their discipline and progressive research training. With experience spanning teaching, laboratory work, and collaborative research engagements, the researcher has contributed to the development of innovative methods and scientific insights across multiple technical domains. Their scholarly output includes peer-reviewed documents that have collectively earned 34 citations, reflecting consistent visibility and relevance in the academic community. The researcher maintains an h-index of 2 and an i10-index of 1, demonstrating meaningful contributions that continue to influence ongoing studies. Their research interests include interdisciplinary themes such as advanced materials, sustainable technologies, analytical techniques, engineering applications, and emerging scientific innovations. The researcher has actively participated in seminars, workshops, and conferences, contributing to academic discussion while also receiving recognition and awards for impactful work and presentation excellence. Through continuous engagement in scholarly development, project participation, and publication activity, the researcher aims to advance knowledge, support scientific progress, and contribute solutions to real-world challenges. Overall, their academic journey reflects commitment, growth, and impact, positioning them as a promising contributor to future research and technological development.

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Featured Publications

Charan, S., Sharma, N., Kumawat, A., Mathur, S., & Vishwkarma, A. K., et al. (n.d.). Synthesis of MXene nanosheets and their modification for hydrogen sensing applications. International Journal of Hydrogen Energy, 48(96), 38118–38124.

Kumawat, A., Charan, S., Sharma, N., Kulriya, P. K., Singh, Y., & Visshwakarma, A. K., et al. (n.d.). Synthesis of graphene-like nano-order thick graphitic flakes through industrial waste carbon and study of their hydrogen gas sensing properties. International Journal of Hydrogen Energy, 48(96), 38101–38106.

Kumawat, A., Srivastava, S., Sharma, N., & Kumar, K. (n.d.). A chemical-free novel synthesis of graphene-like nanosheets using industrial waste carbon precursor and comparative study of their hydrogen gas sensing performance. International Journal of Hydrogen Energy, 196, 152613.

Meena, D. S., Kumawat, A., & Jangid, M. K. (n.d.). Investigation of structural and optical properties of NiO-based NiO/Co/Zn thin films for optoelectronic applications. Recent Trends in Applied Physics and Material Science, 184.

Meena, D. S., Kumawat, A., Meena, V. P., Meena, P., Mahla, H., & Meena, P. K., et al. (n.d.). Preparation of NiO/Co/Zn thin films and study of annealing effect on their structural and electrical properties. International Conference on Materials and Thermophysical Properties, 380–387.

Amar Deep Maurya | Civil Engineering | Research Excellence Award

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Mr. Amar Deep Maurya | Civil Engineering | Research Excellence Award

Rajkiya Engineering College Mainpuri | India

Amar Deep Maurya is a researcher in civil engineering with contributions in sustainable construction materials, structural optimization, and innovative testing methods. His academic background includes a bachelor’s degree in civil engineering with strong engagement in interdisciplinary learning across environmental sciences and digital design tools. He has gained practical experience through engineering internships focused on road estimation, planning, sustainability, and environmental assessment. His research centers on waste-derived construction materials, particularly the statistical modeling and optimization of waste-glass-based paver blocks using Response Surface Methodology, which demonstrated marked improvements in strength and durability while reducing environmental impact. He has also contributed to the development of advanced mortar testing methods and has completed multiple design-based projects in AutoCAD and 3D modeling. His scholarly output includes research and review articles with measurable impact metrics such as h-index, citation count, and document contributions as reflected through academic indexing platforms. His publications explore areas including sustainable paver blocks, RSM-based prediction models, and self-healing concrete. Recognized for academic excellence, he secured a technical poster award and additional certifications enhancing his professional competence. Overall, his work reflects a commitment to sustainable engineering innovations and practical solutions for future-ready civil infrastructure.

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Featured Publication

Statistical modeling and optimization of waste glass-based paver block properties. (2025). Next Materials.

Archana Mohan | Electronics Engineering | Research Excellence Award

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Mrs. Archana Mohan | Electronics Engineering | Research Excellence Award

Amrita Vishwa Vidyapeetham | India

Archana Mohan is a dedicated researcher and academician in Electrical and Electronics Engineering, currently pursuing her doctoral studies with a strong focus on power systems, e-mobility, and intelligent control applications. With a solid educational background spanning engineering, power systems, and management studies, she has built interdisciplinary expertise that strengthens her analytical and problem-solving capabilities. Her professional experience includes serving as a Teaching Assistant and Research Assistant in advanced laboratories related to power systems, robotics, embedded systems, autonomous systems, and electric vehicles, where she mentors students, develops experimental setups, and contributes to project execution. Her research contributions span transient stability modeling, hybrid electric vehicle architectures, V2X communication, state-of-charge estimation, air-quality integrated mobility systems, and optimization using AI-based techniques. She has authored multiple publications indexed in reputed databases with 19 citations, an h-index of 3, and i10-index of 0, reflecting the growing impact of her work. Her involvement in international conferences and journal publications highlights her active engagement with the global research community. She has also contributed to academic quality initiatives and technical events while earning recognition for her academic excellence and active participation. Her research interests continue to evolve toward sustainable mobility, intelligent power systems, and data-driven engineering solutions.

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Featured Publications

Mohan, A., & Manitha, P. V. (n.d.). Hybrid Electric Vehicles with V2X Topology and Smart Energy Management: An Overview of Their Potential and Limitations. In 2nd International Conference on Futuristic Technologies (INCOFT).

Mohan, A., & Vidya, M. S. (n.d.). Artificial Neural Network Model of an IEEE 5 Bus System under Transient Conditions. In Third International Conference on Smart Systems and Inventive Technology.

Mohan, A., Avinash, R., Manitha, P. V., & Deepa, K. (n.d.). The Impact of PID Controllers on the Performance of Electric Vehicle Speed Control and SoC. In IEEE North Karnataka Subsection Flagship International Conference (NKCon).

Mohan, A., Manitha, P. V., & Subramaniam, U. (n.d.). A comprehensive review on the integration of air quality monitoring systems with hybrid electric vehicles for emission control in smart cities. Science of the Total Environment, 994, 180022.

Mohan, A., Manitha, P. V., & Subramaniam, U. (n.d.). Comparative analysis of state of charge estimation methods for Li-ion batteries using Kalman filter variants and machine learning techniques for electric vehicle applications. IEEE Access.

Moh Mahatab | Civil Engineering | Best Researcher Award

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Mr. Moh Mahatab | Civil Engineering | Best Researcher Award

Indian Institute of Technology Roorkee | India

Moh Mahatab is a Research Scholar in Civil Engineering whose work centers on fatigue and fracture behavior of welded joints in high-strength steel, with emphasis on improving fatigue performance through impact treatment and developing reliability-based design approaches for safer structural applications. He holds a postgraduate qualification in Structural Engineering and has contributed to several consultancy assignments involving structural design vetting and seismic retrofitting. His early research experience includes working as a Junior Research Fellow on a national project focused on seismic risk assessment of Indian cities, which strengthened his analytical foundation in structural safety. His ongoing research aims to advance fatigue life prediction and produce service guidelines that enhance the long-term performance of steel infrastructure. He maintains active collaboration with industry partners such as Tata Steel Limited, supporting practice-oriented innovations. Through a prestigious national research fellowship and an international research scholarship, he is further engaged in evaluating the fatigue behavior of retrofitted girders to inform performance assessment and life-extension strategies for existing structures. His academic and research contributions reflect a commitment to engineering reliability, material behavior understanding, and the development of methods that support resilient, high-performance infrastructure systems.

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Featured Publications

Mahatab, M., & Ranjan, R. (2025). Quantification of fatigue life improvement in S550MC weldments by HFMI treatment using 2D SBFM model. Procedia Structural Integrity. https://doi.org/10.1016/j.prostr.2025.06.135

Anand, V., Mahatab, M., Sharma, A., Raj, D., Jat, M. K., Sarkar, R., & Pal, S. (2023). A cluster-based seismic risk assessment: Economic loss using GIS for Jaipur sub-urban area. In Lecture Notes in Civil Engineering. https://doi.org/10.1007/978-981-99-1459-3_41

Prashant Tiwari | Pharmacology | Excellence in Research Award

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Assoc. Prof. Dr. Prashant Tiwari | Pharmacology | Excellence in Research Award

Dayananda Sagar University| India

Dr. Prashant Tiwari is a pharmaceutical scientist and academic specializing in pharmacology, with impactful contributions in neuropharmacology, neurodegenerative disorders, analytical method development, and plant-based therapeutic research. His academic foundation includes advanced qualifications in pharmacy, clinical research, and computational applications, supporting a multidisciplinary research profile. With extensive experience as a faculty member and researcher, he has guided multiple Ph.D. and postgraduate scholars in areas such as Alzheimer’s disease, Parkinson’s disease, drug repurposing, heterocyclic compound synthesis, analytical validation, and formulation development. His scientific output reflects strong research productivity, evidenced by more than 1132 citations, an h-index of 14, an i10-index of 21, and a sustained impact in recent years. He has published peer-reviewed work, developed innovative drug-delivery strategies, and contributed to patents covering microencapsulation, artificial intelligence-based pharmaceutical applications, smart healthcare devices, and phytopharmaceutical compositions. His research interests span neuroprotective mechanisms, AI-assisted drug design, analytical chemistry, phytopharmacology, and preclinical evaluation of novel therapeutic agents. He has also completed multiple national training programs in systematic reviews, ethics in health research, scientific writing, causal inference, Six Sigma, and Good Clinical Practice, strengthening his methodological expertise. Overall, Dr. Tiwari’s work demonstrates a strong commitment to scientific innovation, pharmaceutical education, and translational research.

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Featured Publications

Bhattacharya, K. S., Tiwari, P., & Sahu, P. K. (2018). A review of the phytochemical and pharmacological characteristics of Moringa oleifera. Journal of Pharmaceutical and Bioallied Sciences, 10(1), 181–191. (Cited by: 298)

Mishra, S. K., Tiwari, P., & Prusty, S. K. (2018). Phytochemistry and pharmacology of Tinospora cordifolia: A review. Systematic Reviews in Pharmacy, 9(1), 70–78. (Cited by: 163)

Mishra, S. K., & Tiwari, P. (2017). Phytochemistry and pharmacology of Tinospora cordifolia: A review. Systematic Reviews in Pharmacy, 9(1), 70–78. (Cited by: 163)

Tiwari, P., Dwivedi, S., Singh, M. P., Mishra, R., & Chandy, A. (2013). Basic and modern concepts on cholinergic receptor: A review. Asian Pacific Journal of Tropical Disease, 3(5), 413–420. (Cited by: 126)

Tiwari, P. (2019). Butea monosperma: Phytochemistry and pharmacology. Acta Scientific Pharmaceutical Sciences, 3(4), 19–26. (Cited by: 51)

Shweta Mishra | Pharmaceutical Science | Research Excellence Award

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Dr. Shweta Mishra | Pharmaceutical Science | Research Excellence Award

Pancholi Consultancy | India

Dr. Shweta Mishra is a dedicated pharmaceutical researcher known for her expertise in analytical method development, stability-indicating studies, and advanced characterization techniques, reflected in her citation count of 669, an h-index of 13, and 22 indexed documents. She holds a Bachelor’s and Master’s degree in Pharmacy with strong academic performance and a doctoral qualification specializing in the development and validation of LC-MS/MS methods for identifying and characterizing degradation products of complex drug molecules. Her professional journey includes significant leadership responsibilities in QC and ADL departments, serving as Manager at reputed analytical laboratories, and later contributing as a Consultant overseeing WHO-GMP compliance, documentation systems, audits, validation, and quality improvements across pharmaceutical manufacturing environments. Her research interests focus on forced degradation studies, impurity profiling, chromatographic optimization, and structural elucidation using LC-MS/MS and NMR. She has published impactful research articles in peer-reviewed journals, delivered conference presentations, and contributed to scientific advancements related to anticancer agents and stability-indicating analytical methods. Her work has been recognized through honors such as a prestigious award for outstanding research in pharmaceutical analysis and an international excellence award for contributions to LC-MS/MS and NMR-based studies. She continues to advance pharmaceutical quality standards through research, technical expertise, and industry engagement.

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Featured Publications

Cudney, E. A., Furterer, S., & Dietrich, D. (2013). Lean systems: Applications and case studies in manufacturing, service, and healthcare. CRC Press.

Mishra, S., & Nath, M. (2013). Growth of vertically aligned CdTe nanorod arrays through patterned electrodeposition. Nano Energy, 2(6), 1207–1213.

Singh, D., Sharma, S. K., Rani, R., Mishra, S., & Sharma, R. A. (2011). Kaempferol-7-O-glucoside and their antimicrobial screening isolate from Cassia renigera Wall. International Journal of Pharmaceutical and Clinical Research, 3(2), 30–34.

Mishra, S., & Mukhopadhyay, P. K. (1996). Ascorbic acid requirement of catfish fry Clarias batrachus (Linn.). Indian Journal of Fisheries, 43(2), 157–162.

Mishra, S., Song, K., Koza, J. A., & Nath, M. (2013). Synthesis of superconducting nanocables of FeSe encapsulated in carbonaceous shell. ACS Nano, 7(2), 1145–1154.

Ashlesha Chauhan | Pharmaceutical Analysis | Women Researcher Award

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Dr. Ashlesha Chauhan | Pharmaceutical Analysis | Women Researcher Award

K.B.Institute of Pharmaceutical education and research | India

Dr. Ashlesha J. Chauhan is an accomplished academic and researcher in Pharmaceutical Chemistry with extensive experience in teaching and research. She holds a B.Pharm, an M.Pharm, and a Ph.D. in Pharmaceutical Sciences, and has served in multiple academic positions, progressing from Assistant Professor to Associate Professor. She has guided numerous postgraduate and doctoral students and has contributed significantly to the academic growth of her institution through active participation in various committees related to quality, gender sensitization, student support, and institutional governance. Her research interests span medicinal chemistry, QSAR, molecular modeling, drug discovery, and pharmaceutical analysis, with a strong publication record comprising 11 research documents, 79 citations, and an h-index of 4 based on 76 citing documents. She has received recognition through research grants, competitive fellowships, and the filing of a patent for her synthetic work. Her contributions in method development, analytical chemistry, and design of bioactive molecules reflect her commitment to innovation and scientific advancement. She has also presented her work at prominent scientific platforms. Overall, Dr. Chauhan’s career represents a blend of impactful teaching, productive research, academic leadership, and continuous contribution to pharmaceutical sciences.

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Featured Publications

Patle, R., Kavitha, R., Surendrakumar, A., Sahni, R. K., Suthakar, B., Kannan, B., & Maragatham, S. (2025). Development of a sensor-based embedded system for on-the-go variable-rate fertilizer applicator in maize crop. Results in Engineering, 28, 107852. https://doi.org/10.1016/j.rineng.2025.107852

Patle, R., Kavitha, R., Surendrakumar, A., Balaji, K., Maragatham, S., & Suthakar, B. (2023). Estimation of sensor-based site-specific variable rate fertilizer application for maize (Zea mays L.) crop. Journal of Applied and Natural Science, 15(3), 1109–1118. https://doi.org/10.31018/jans.v15i3.4724

Patle, R. (2024). Variable rate fertilizer applicator (Software registration No. SW-18483/2024).

Patle, R. (2023). Autonomous variable rate fertilizer applicator (Patent filed at The Patent Office, India).