Antima Kumari | Control Methodology | Women Researcher Award

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Ms. Antima Kumari | Control Methodology | Women Researcher Award

Ms. Antima Kumari | Control Methodology – Assistant Manager Research at Indian Oil Corporation Limited R&D centre , India

Antima Kumari is an innovative researcher and accomplished engineer in the field of electrical and energy systems, currently serving as a Senior Research Officer at Indian Oil Corporation Limited’s R&D Centre in Faridabad, India. Her professional journey is marked by a steadfast commitment to renewable energy innovation, particularly in the domain of hydrogen fuel cells and control system engineering. Blending academic rigor with real-world applications, she has significantly contributed to clean energy research, demonstrating a rare ability to transform complex ideas into impactful solutions. Her work exemplifies the integration of advanced control theory with sustainable fuel technologies, earning her recognition in both academic and industrial research circles.

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Education

Antima Kumari earned her Master of Technology (M.Tech.) degree in Electrical Engineering from the Indian Institute of Technology (IIT) Roorkee in 2019. During her postgraduate studies, she completed a distinguished thesis titled “Design of Fractional Order PID Controller for Selected Type of Systems” under the supervision of Professor Indra Gupta. Prior to that, she obtained a Bachelor of Technology (B.Tech.) in Electronics Instrumentation and Control Engineering from Rajasthan Technical University, Kota, in 2015. Her academic path has been characterized by strong performance and a deep engagement with engineering principles, particularly in control systems and instrumentation.

Professional Experience

Since August 2019, Antima has held the position of Senior Research Officer at the Alternative Energy Department of Indian Oil Corporation Limited. She has been actively engaged in designing and modeling automatic control systems for energy management in fuel cell-battery hybrid vehicles, setting up experimental fuel cell labs, and optimizing the performance of DC motors and energy converters. Among her notable achievements is the design of a controller and power management system for India’s first fuel cell-powered bicycle. Her work also involves data acquisition systems, PID-based green hydrogen production control, and instrumentation for power optimization. Prior to her industrial role, she gained teaching experience at IIT Roorkee as a Teaching Assistant, helping students in subjects like system and control engineering and microcontroller labs.

Research Interests

Antima Kumari’s research interests lie at the intersection of intelligent control systems, renewable energy technologies, and embedded electronics. She is particularly focused on the application of fractional-order PID controllers, modeling of time-delay systems, energy hybridization using fuel cells and batteries, and the development of real-time data acquisition and power management systems. Her work integrates MATLAB/Simulink-based simulations with hands-on experimental designs, with applications in both transportation and stationary energy systems. She is also expanding her research into AI-based controllers for energy-efficient systems.

Awards and Recognitions

While formal accolades are still forthcoming, Antima’s selection for the highly competitive postgraduate program at IIT Roorkee and her immediate recruitment into India’s leading oil and energy corporation’s R&D division reflect her capabilities and early-career promise. She has also participated in prestigious national events like the Texas Instruments Analog Maker Competition and contributed to multiple cultural and technical initiatives during her academic years.

Publications

  • 📘 Design of Fractional Order Controller via CRONE Principle for Time Delayed Systems, IEMECON 2019, IEEE. Cited by 12 articles.
  • ⚙️ Optimizing the Control Strategies for Hydrogen Based Fuel Cell Vehicles, submitted to WPC 2023 (abstract submission).
  • 🔧 Design of ADRC Controller for Fractional Order Time Delay Systems, M.Tech. Thesis Report, IIT Roorkee (2019).
  • 🧪 Modeling of Fuel Cell Hybrid Systems Using IMC Controllers, internal technical report, IOCL R&D (2020).
  • 🚲 Controller Design for India’s First Fuel Cell Bicycle, project documentation and internal patent filing, IOCL (2021).
  • ⚡ Power Management Circuits for Fuel Cell and Battery Hybridization, R&D whitepaper under review (2022).
  • 🔍 Data Acquisition and Instrumentation for Green HCNG Production, internal presentation, IOCL (2023).

Conclusion

Antima Kumari exemplifies the spirit of research-driven innovation and sustainability that the “Women Researcher Award” seeks to honor. Her academic foundation from a leading institution, combined with her substantial industrial research experience and her strong focus on clean energy technologies, make her a compelling candidate. She not only contributes technical knowledge but also embodies leadership and vision in promoting green technologies through applied research. With a growing body of publications and national-level contributions, she is poised to become a leading voice in India’s transition to sustainable energy.

Andreas Konstantinidis | Smart Systems | Best Researcher Award

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Assoc. Prof. Dr. Andreas Konstantinidis | Smart Systems | Best Researcher Award

Assoc. Prof. Dr. Andreas Konstantinidis | Smart Systems – Frederick University, Cyprus

Dr. Andreas Konstantinidis is a distinguished researcher and academic whose contributions to wireless sensor networks, Internet of Things (IoT), and computational intelligence have positioned him as a thought leader in the field. He serves as an Associate Professor at Frederick University and a Senior Researcher at the Frederick Research Center in Cyprus. Throughout his career, Dr. Konstantinidis has demonstrated a commitment to excellence in research, innovation, and interdisciplinary collaboration, especially in the development of resource-constrained and environmentally aware computing systems. His dedication to academic advancement and applied research has led to the successful coordination of numerous national and European-funded projects and the publication of influential scholarly articles. He is recognized for seamlessly integrating theoretical models with practical implementations that address pressing challenges such as environmental monitoring, smart mobility, and sustainable development.

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Education

Dr. Konstantinidis holds a robust academic background rooted in computer science and telecommunications. He earned his Bachelor’s and Master’s degrees in Computer Science from reputable institutions, with a focus on distributed systems and networking. He went on to complete his PhD in Computer Engineering, specializing in wireless sensor networks and multi-objective optimization. His academic journey cultivated both technical expertise and a passion for research-driven solutions, laying the foundation for his impactful work in academia and beyond.

Experience

With over 15 years of experience in academia, research, and innovation, Dr. Konstantinidis has held several key positions, including Assistant and Associate Professorships at Frederick University. As a Senior Researcher at the Frederick Research Center, he has led and contributed to more than 20 competitive research projects funded by the European Commission and national bodies. These projects span diverse sectors such as smart agriculture, marine biodiversity monitoring, and intelligent transport systems. His leadership extends to mentoring early-stage researchers, guiding postgraduate theses, and organizing scientific workshops and conferences. He also serves as a reviewer and editorial board member for high-impact international journals and conferences, reinforcing his influence in the global research community.

Research Interests

Dr. Konstantinidis’s research interests are interdisciplinary and application-driven. His work centers around wireless sensor networks, mobile computing, multi-objective optimization, and computational intelligence. He is particularly interested in designing energy-efficient, adaptive systems for real-time environmental monitoring, smart cities, and autonomous vehicles. Recent work involves the development of optimization algorithms that balance energy consumption with data accuracy in sensor networks. His contributions also delve into edge computing and AI-based decision-making frameworks that enable predictive modeling in dynamic, data-intensive environments. Through his research, Dr. Konstantinidis aims to address real-world sustainability challenges using cutting-edge technology.

Awards

Dr. Konstantinidis has received several accolades in recognition of his research excellence and academic contributions. He has been honored with research fellowships, best paper awards, and national research distinctions for his innovative work in IoT and optimization systems. His role in high-impact EU-funded projects has also led to institutional and governmental acknowledgments, reflecting the societal relevance and applied value of his research. These recognitions underscore his commitment to advancing science and technology in alignment with global development goals.

Publications

📘 “A multiobjective evolutionary algorithm for the deployment and power assignment problem in wireless sensor networks” (2010, Applied Soft Computing) – Cited by 256 articles.

🌱 “Green multi-objective optimization for adaptive and energy-efficient environmental monitoring” (2016, Ad Hoc Networks) – Cited by 123 articles.

🌐 “A data-centric approach for marine monitoring using underwater wireless sensor networks” (2019, Sensors) – Cited by 89 articles.

📡 “A distributed, collaborative optimization framework for large-scale IoT deployments” (2020, IEEE Access) – Cited by 75 articles.

📱 “Mobile crowdsensing for smart city applications: Challenges and case studies” (2017, Computer Communications) – Cited by 110 articles.

🔋 “Energy-efficient routing protocols in wireless sensor networks: A comparative review” (2015, Journal of Network and Computer Applications) – Cited by 142 articles.

🌍 “Smart agriculture: Leveraging IoT and WSNs for sustainable crop management” (2021, Computers and Electronics in Agriculture) – Cited by 66 articles.

Conclusion

Dr. Andreas Konstantinidis exemplifies excellence in research, innovation, and academic leadership. His multidisciplinary expertise, combined with a passion for societal impact, makes him a fitting nominee for the Best Researcher Award. His ability to bridge theory with application, mentor future scientists, and deliver results in real-world contexts speaks to his enduring value in the scientific community. From pioneering wireless systems that enhance environmental sustainability to designing adaptive algorithms for intelligent IoT systems, Dr. Konstantinidis continues to push the boundaries of technological advancement. His achievements not only contribute to academic knowledge but also drive solutions for the pressing challenges of our time.