Mallela Veeranjaneyulu | Measurement | Best Researcher Award

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🌟Mr. Mallela Veeranjaneyulu, Measurement, Best Researcher AwardπŸ†

Mallela Veeranjaneyulu at National institute of technology Rourkela, India

Mallela Veeranjaneyulu, born on July 15, 1995, in Korlagunta, Andhra Pradesh, is a dedicated researcher and academic in the field of Electrical Engineering. Currently pursuing a Ph.D. in Electrical Engineering at the National Institute of Technology, Rourkela, his work primarily focuses on innovative solutions in power systems and electronics. With a strong academic background and hands-on experience in both theoretical and practical aspects of electrical engineering, Veeranjaneyulu is committed to contributing to advancements in the field.

Author Metrics

ORCID Profile

Veeranjaneyulu’s contributions to the academic community are reflected in his author metrics, showcasing the impact and reach of his research. These metrics may include citation counts, h-index, i10-index, and other indicators used to evaluate the significance of scholarly publications. Through his publications and collaborations, Veeranjaneyulu demonstrates his expertise and influence within the field of Electrical Engineering.

Education

Veeranjaneyulu’s academic journey is marked by excellence and dedication. He obtained his B.Tech Degree in Electrical and Electronics Engineering from JNTUK University College of Engineering, Vizianagaram, followed by an M.Tech Degree in Power Systems Engineering from the National Institute of Technology, Rourkela. Currently, he is pursuing a Ph.D. in Electrical Engineering at the same institution, furthering his knowledge and expertise in the field.

Research Focus

Veeranjaneyulu’s research interests primarily lie in the areas of analog electronics, power electronics, and power systems. His work encompasses designing innovative solutions for efficient power distribution, exploring novel methods for current measurement, and developing hybrid microgrid systems. Through his research, Veeranjaneyulu aims to address challenges in energy management and contribute to the advancement of sustainable power technologies.

Professional Journey

Throughout his professional journey, Veeranjaneyulu has gained valuable experience through internships and academic projects. He has undertaken summer internships at prominent institutions such as Visakhapatnam Steel Plant and Vijayawada Coal Power Station, where he gained practical insights into power generation and distribution processes. Additionally, his academic projects have allowed him to apply theoretical concepts to real-world engineering challenges, honing his skills as a researcher and engineer.

Honors & Awards

Veeranjaneyulu’s contributions to the field of Electrical Engineering have been recognized through various honors and awards. These accolades may include scholarships, academic distinctions, or recognition for outstanding research contributions. Such recognition underscores Veeranjaneyulu’s dedication to academic excellence and his significant contributions to advancing knowledge in his field.

Publications Noted & Contributions

Veeranjaneyulu has made notable contributions to the academic literature through his research publications. His work may include papers published in peer-reviewed journals, conference proceedings, and book chapters. These publications cover a wide range of topics within the field of Electrical Engineering, highlighting Veeranjaneyulu’s expertise and his impact on advancing knowledge in his area of specialization.

Title: A novel coreless current sensing mechanism for two-wire power cord

Publication: Measurement, May 2024

DOI: 10.1016/j.measurement.2024.114587

URL: https://doi.org/10.1016/j.measurement.2024.114587

Contributors:

  • Mallela Veeranjaneyulu (Author)
  • Gopalakrishna Srungavarapu (Author)

Summary: The article presents a novel coreless current sensing mechanism designed specifically for two-wire power cords. This mechanism offers a unique solution for measuring electric currents without the need for traditional cores or sensors. By leveraging innovative design principles, the proposed mechanism achieves accurate and reliable current measurements while minimizing interference and maximizing efficiency. The collaboration between Mallela Veeranjaneyulu and Gopalakrishna Srungavarapu highlights their expertise and dedication to advancing sensor technology in electrical engineering.

Research Timeline

Veeranjaneyulu’s research timeline provides a comprehensive overview of his academic and professional journey, highlighting key milestones such as obtaining degrees, participating in internships, conducting research projects, and publishing findings. This timeline demonstrates Veeranjaneyulu’s progression as a researcher and his ongoing commitment to advancing knowledge in his field.

Collaborations and Projects

Veeranjaneyulu has been actively involved in collaborative research projects, working with fellow researchers, faculty members, and industry professionals. These collaborations have allowed him to leverage diverse expertise and resources to address complex engineering challenges. His projects range from designing coreless contactless current probes to developing hybrid AC/DC microgrid systems, showcasing his versatility and innovative approach to research and development.

Archana Balkrishna Yadav | Electronics | Excellence in Research

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🌟Ms. Archana Balkrishna Yadav, Electronics, Excellence in ResearchπŸ†

  • Archana Balkrishna Yadav at Indvidiaul, India

Archana B. Yadav is an accomplished professional with over 15 years of experience in engineering and teaching. She holds a Master of Technology in Instrumentation and a Bachelor of Engineering in Electronic & Communication. Archana has a strong background in automation, control systems, and instrumentation. Throughout her career, she has demonstrated expertise in both academia and industry, contributing significantly to research, teaching, and project management.

Author Metrics:

Archana B. Yadav’s research contributions are notable, with several publications in international conferences and journals. Her work has been cited by peers and scholars in the field, as evidenced by her Google Scholar profile. She maintains a strong presence in the academic community, with a focus on advancing knowledge in areas such as PLCs, SCADA systems, automation, and control engineering.

Google Scholar Profile

Citations: Archana B. Yadav’s research has garnered 129 citations in total, reflecting the impact and influence of her work within the academic community.

h-index: With an h-index of 5, Archana has published at least 5 papers that have each received at least 5 citations, indicating a consistent level of scholarly output and impact.

i10-index: Archana’s i10-index is 4, indicating that she has published at least 4 papers that have received 10 or more citations each, further highlighting the significance of her research contributions.

Education:

Archana completed her Master of Technology in Instrumentation with distinction from Devi Ahilya Vishwa Vidyalaya, Indore, M.P, India, in 2005. Prior to that, she earned her Bachelor of Engineering in Electronic & Communication from Government Engineering College of Modasa, Gujarat, India, in 2003. Her academic achievements laid a solid foundation for her successful career in engineering and academia.

Research Focus:

Archana’s research interests lie in the field of automation, control systems, and instrumentation. She has a particular focus on PLCs, SCADA systems, and their applications in various industrial settings. Her work encompasses both theoretical and practical aspects, aiming to develop innovative solutions to real-world engineering challenges. Archana’s research contributes to the advancement of knowledge in her field and has practical implications for industry.

Professional Journey:

Archana’s professional journey has been marked by diverse roles in academia and industry. She has served as an Assistant Professor in the Instrumentation & Control Department at Sardar Vallabhbhai Patel Institute of Technology, Vasad (Gujarat), where she imparted knowledge and mentored students. Additionally, she has held senior engineering positions at leading companies such as Schneider Electric Pvt. Ltd. and CAD & Controls, where she worked on automation projects and software development.

Honors & Awards:

Archana B. Yadav has been recognized for her contributions to the field of engineering and academia. She received the prestigious Indian Achievers Award from Indian Achievers forums, acknowledging her outstanding achievements and leadership in her profession. This recognition reflects her dedication to excellence and her significant impact on the industry.

Publications Noted & Contributions:

Archana’s research publications have made notable contributions to the field of automation and control engineering. Her papers have been published in esteemed international conferences and journals, addressing critical issues and presenting innovative solutions. These publications have been widely cited and have garnered attention from researchers and practitioners alike, enhancing the body of knowledge in her area of expertise.

“A cellular taxonomy of the adult human spinal cord”

Cited By: 57

Year: 2023
This seminal work by Archana B. Yadav et al. presents a comprehensive cellular taxonomy of the adult human spinal cord, offering valuable insights into its complex organization and function. Published in Neuron, this research significantly advances our understanding of spinal cord physiology and has garnered substantial attention from the scientific community.

“Highly sensitive bimetallic-metal nitride SPR biosensor for urine glucose detection”

Cited By: 30

Year: 2023
In this study, Archana B. Yadav and her colleagues developed a highly sensitive biosensor for urine glucose detection using bimetallic-metal nitride SPR technology. Published in IEEE Transactions on NanoBioscience, this research introduces an innovative approach to biosensing with potential applications in healthcare diagnostics.

“Effect of 2-D nanomaterials on sensitivity of plasmonic biosensor for efficient urine glucose detection”

Cited By: 22

Year: 2023
This paper, authored by Archana B. Yadav et al., investigates the impact of 2-D nanomaterials on the sensitivity of plasmonic biosensors for urine glucose detection. Published in Frontiers in Materials, the study enhances our understanding of nanomaterial-enhanced biosensing techniques, offering insights into improved detection methods for medical diagnostics.

“PLC & SCADA based automation of filter house, a section of Water Treatment Plant”

Cited By: 13

Year: 2012
Archana B. Yadav’s contribution to the 2012 1st International Conference on Emerging Technology Trends focuses on PLC & SCADA-based automation applied to a filter house in a water treatment plant. This research demonstrates practical applications of automation technology in optimizing water treatment processes.

“Augmentation to water supply scheme using PLC & SCADA”

Cited By: 5

Year: 2011
Co-authored by AB Yadav and PS Shukla, this paper presented at the 2011 Nirma University International Conference on Engineering explores the augmentation of water supply schemes using PLC & SCADA systems. The study highlights innovative approaches to improving water management infrastructure for enhanced efficiency and reliability.

Research Timeline:

Archana’s research timeline showcases her continuous commitment to advancing knowledge and addressing contemporary challenges in automation and control engineering. From her early contributions during her academic pursuits to her impactful research projects in industry and academia, Archana’s journey reflects a dedication to excellence and a passion for pushing the boundaries of her field.

Collaborations and Projects:

Archana has been actively involved in collaborative research projects and industry engagements throughout her career. She has collaborated with researchers, engineers, and industry partners to tackle complex problems and develop innovative solutions. Her involvement in projects such as automation in drip irrigation and automation of heat exchanger systems demonstrates her ability to apply theoretical knowledge to practical applications, resulting in tangible outcomes for stakeholders.