Pradita Octoviandiningrum Hadi,
Ir. S.T., M.T., Ph.D.
Power Engineering Research Groups
Email : praditahadi@itb.ac.id
Dr. Pradita Octoviandiningrum Hadi is an academic and researcher at the School of Electrical Engineering and Informatics (STEI), Bandung Institute of Technology (ITB), Indonesia. Her academic journey in electrical engineering began at ITB, where she earned her Bachelor's (2012) and Master's (2014) degrees. She then pursued her doctoral studies at Shibaura Institute of Technology (SIT), Japan (2018), where she also completed a postdoctoral fellowship (2019) in power systems.
Her research interests are rooted in the development of energy systems that prioritize sustainability and resilience. This encompasses power system reliability, energy management, renewable energy integration, energy planning, and electric vehicle infrastructure. Dr. Pradita's academic contributions are reflected in numerous publications in journals and international conferences. Her collaborative research often intersects spatial data analysis, modeling, and real-world applications of hybrid power systems.
In her role at ITB, Dr. Pradita is passionate about fostering a dynamic academic environment where theoretical insights meet practical challenges. She actively mentors undergraduate and graduate students, integrates research into curriculum development, and encourages a multidisciplinary approach to problem-solving in power and energy systems. Her teaching philosophy centers on student engagement, project-based learning, and technological innovation in the classroom.
Outside of academia, he has built networks across academia, industry, and government, contributing to national and regional energy strategies, particularly in Southeast Asia. His work supports the transition to cleaner energy sources and informs policy through evidence-based insights and socio-technical research.
With a continued commitment to advancing the field of electrical power engineering, Dr. Pradita continues to explore new models of energy independence, emission reduction strategies, and infrastructure optimization for future-ready communities.
- Learning Electric Power Distribution Systems with Interactive Learning Methods (2025)
- Optimization of Location Selection for Public Electric Vehicle Charging Stations (2025)
- Estimate of the Potential of Multi-Renewable Energy Solar, Hydro, Wind, Biomass in Supporting the Net Zero Carbon Target in the Nickel Mining Smelter Area (2025)
- Dynamic Wireless Charging System for Electric Vehicles (2024)
- Construction of Public Street Lighting in Hamlet II, Parungbanteng Village, Purwakarta Regency (2024)
- Introduction to Circuit Analysis with Inquiry-based Learning Method (2023)
- Construction of Public Street Lighting with Solar Panel Energy Source in Cikaso Hamlet, Sempurmayung Hamlet, Cimarga Village, Cisitu District, Sumedang Regency (2023)
- Construction of Public Street Lighting in Cipeundeuy Hamlet, Cimarga Village, Sumedang Regency (2023)
- Prediction of Heating and Cooling Load Using Machine Learning Techniques (2024)
- Multi-air pollution risk assessment in Southeast Asia region using integrated remote sensing and socio-economic data products (2023)
- Spatial integration framework of solar, wind, and hydropower energy potential in Southeast Asia (2023)
- Multistate System Reliability: An Overview for Renewable Energy Applications (2023)
- Energy Planning and Utilization in the North Sulawesi Electricity System (2023)
- Design of Moving Wireless Charger for EV Prototype with Inductive Power Transfer Method (2023)
- Multistate k-Out-of-n System Reliability for On-Grid PV System Using Universal Generating Function (2023)
Keyword
Power Engineering
English 
Indonesian