Eliningaya Kweka | Entomology | Best Researcher Award Posted on 04/09/202404/09/2024 by ScienceFather Prof. Eliningaya Kweka | Entomology | Best Researcher Award Research Professor at Catholic university of Health and Allied Sciences, Tanzania. Prof. Eliningaya Kweka is a distinguished researcher and academic with extensive expertise in medical entomology, vector ecology, and chemical ecology. He currently serves as a Research Professor at the Catholic University of Health and Allied Sciences in Mwanza, Tanzania, and holds key leadership positions at the Tropical Pesticides Research Institute (TPRI). Prof. Kweka earned his Master’s in Business Administration with a focus on Leadership and Governance from the Institute of Accountancy Arusha, Tanzania, graduating with First Class honors. He has also completed postdoctoral training in Plant Pests and Chemical Ecology at the Swedish University of Agriculture and the National Institute for Medical Research in Tanzania. With a career spanning over two decades, Prof. Kweka has made significant contributions to research, policy development, and the management of vector-borne diseases. He is an active member of several professional societies, including the Pan African Mosquito Control Association (PAMCA) and the International Association for Ecology and Health. His work has earned him recognition both locally and internationally, making him a leading figure in his field. Profile Scopus Profile Google Scholar Profile ORCID Profile Education Prof. Eliningaya Kweka has a diverse and robust educational background that underpins his expertise in leadership, governance, and scientific research. He earned a Master’s in Business Administration with a focus on Leadership and Governance from the Institute of Accountancy Arusha, Tanzania, in 2021/2022, graduating with First Class honors. His commitment to continuous professional development is evident from his completion of several certificates, including Strategic Management Tools and Framework (2020), Human Research Protection (2019) through a course organized by Pennsylvania State University, and Middle Managers Leadership Development (2017). Additionally, Prof. Kweka has undergone specialized postdoctoral training in Plant Pests and Chemical Ecology at the Swedish University of Agriculture and the National Institute for Medical Research, Tanzania, supported by a grant from COSTECH, WOTRO, and SIDA. This extensive educational foundation has equipped him with the skills and knowledge necessary to excel in his research and leadership roles. Professional Experience Prof. Eliningaya Kweka has a distinguished professional background, marked by extensive experience in research, leadership, and policy-making in medical entomology and pest management. He currently serves as a Research Professor at the Catholic University of Health and Allied Sciences, Mwanza, Tanzania, a role he has held since November 2021. In addition, he is the Principal Research Officer I at the Tropical Pesticides Research Institute (TPRI), where he has taken on numerous leadership roles, including Chairperson of the TPRI Proposal Review Committee, Head of the Research Department, and Chairperson of the TPRI Strategic Plan Committee. His expertise is further recognized through his roles as Chairperson of the Resource Mobilization Committee at the Tanzania Plant Health and Pesticides Authority, and as a member of the Technical Committee for the Zanzibar Malaria Elimination Programme. Throughout his career, Prof. Kweka has also served as Associate Research Professor and Senior Lecturer at the Catholic University of Health and Allied Sciences, and as Acting Director of Research at TPRI. His contributions extend beyond academia, with significant involvement in organizing national and international conferences on pest management, developing strategic and research plans, and leading committees dedicated to advancing scientific research and public health in Tanzania. His professional journey reflects a deep commitment to enhancing public health and agricultural practices through rigorous research and strategic leadership. Research Interest Prof. Eliningaya Kweka’s research interests are centered around medical entomology, vector ecology, and chemical ecology, with a particular focus on controlling vector-borne diseases such as malaria. His work explores innovative approaches to pest management, including the use of plant-based chemical ecology to develop sustainable and environmentally friendly solutions. Prof. Kweka is deeply interested in the efficacy and safety of pesticides, as well as the ecological impacts of pest control strategies. His research aims to advance understanding in these areas, contributing to improved public health outcomes, particularly in regions heavily impacted by diseases transmitted by mosquitoes and other vectors. Prof. Kweka’s interdisciplinary approach bridges the gap between entomology, ecology, and public health, positioning him at the forefront of efforts to develop effective and sustainable vector control methods. Research Skills Prof. Eliningaya Kweka possesses a robust skill set in medical entomology and vector ecology, specializing in the development and implementation of effective pest management strategies. His expertise includes conducting field studies and laboratory experiments to assess the bioefficacy of pesticides and plant-based solutions. Prof. Kweka is proficient in statistical analysis and data interpretation, allowing him to evaluate complex ecological data. He excels in interdisciplinary collaboration, working with various stakeholders to promote integrated pest management approaches. Through his research, he aims to enhance vector control strategies and improve public health outcomes in affected communities. Award and Recognition Prof. Eliningaya Kweka has received several awards and recognitions throughout his career, underscoring his significant contributions to research and academia. Notably, he was honored with an appreciation letter from Addis Ababa University for serving as an external examiner for PhD candidates in June 2018, reflecting his expertise and commitment to advancing academic standards. Additionally, he secured a prestigious NIH grant (D43TW001505) to pursue his PhD studies at Tumaini University in Tanzania, which facilitated his fieldwork in the western highlands of Kenya and coursework at the University of California, Irvine, from February 2009 to February 2012. Prof. Kweka’s accolades not only highlight his academic achievements but also his dedication to enhancing public health and pest management through rigorous research and mentorship. Conclusion Given Prof. Kweka’s outstanding academic background, leadership in research, active participation in professional communities, and recognized achievements, he is indeed a highly deserving candidate for the Best Researcher Award. His work not only advances scientific understanding but also has tangible benefits for society, particularly in the areas of public health and environmental sustainability. Publication Top Notes Knowledge, attitudes, and practices about malaria and its control in rural northwest Tanzania Cited By: 228 Year: 2010 Journal: Malaria Research and Treatment, 2010(1), 794261 Feeding and resting behaviour of malaria vector, Anopheles arabiensis with reference to zooprophylaxis Cited By: 215 Year: 2007 Journal: Malaria Journal, 6, 1-6 Ethnobotanical study of some mosquito repellent plants in north-eastern Tanzania Cited By: 155 Year: 2008 Journal: Malaria Journal, 7, 1-9 Recent outbreaks of Rift Valley fever in East Africa and the Middle East Cited By: 130 Year: 2014 Journal: Frontiers in Public Health, 2, 169 Co-infections with Plasmodium falciparum, Schistosoma mansoni and intestinal helminths among schoolchildren in endemic areas of northwestern Tanzania Cited By: 120 Year: 2010 Journal: Parasites & Vectors, 3, 1-7 Anopheline larval habitats seasonality and species distribution: a prerequisite for effective targeted larval habitats control programmes Cited By: 116 Year: 2012 Journal: PloS ONE, 7(12), e52084 Predation efficiency of Anopheles gambiae larvae by aquatic predators in western Kenya highlands Cited By: 115 Year: 2011 Journal: Parasites & Vectors, 4, 1-7 Bacterial larvicides used for malaria vector control in sub-Saharan Africa: review of their effectiveness and operational feasibility Cited By: 113 Year: 2019 Journal: Parasites & Vectors, 12, 1-18 Occurrence of the leucine-to-phenylalanine knockdown resistance (kdr) mutation in Anopheles arabiensis populations in Tanzania, detected by a simplified high-throughput method Cited By: 112 Year: 2006 Journal: Malaria Journal, 5, 1-7 Malaria in East African highlands during the past 30 years: impact of environmental changes Cited By: 106 Year: 2012 Journal: Frontiers in Physiology, 3, 315 Effect of deforestation and land use changes on mosquito productivity and development in Western Kenya Highlands: implication for malaria risk Cited By: 100 Year: 2016 Journal: Frontiers in Public Health, 4, 238 Insecticidal activity of the essential oil from fruits and seeds of Schinus terebinthifolia Raddi against African malaria vectors Cited By: 97 Year: 2011 Journal: Parasites & Vectors, 4, 1-10 The current malaria morbidity and mortality in different transmission settings in Western Kenya Cited By: 76 Year: 2018 Journal: PloS ONE, 13(8), e0202031 Impact of climate change on human health and health systems in Tanzania: a review Cited By: 75 Year: 2011 Journal: Tanzania Journal of Health Research, 13(5) Longitudinal evaluation of Ocimum and other plants effects on the feeding behavioral response of mosquitoes (Diptera: Culicidae) in the field in Tanzania Cited By: 72 Year: 2008 Journal: Parasites & Vectors, 1, 1-8
Prof. Eliningaya Kweka is a distinguished researcher and academic with extensive expertise in medical entomology, vector ecology, and chemical ecology. He currently serves as a Research Professor at the Catholic University of Health and Allied Sciences in Mwanza, Tanzania, and holds key leadership positions at the Tropical Pesticides Research Institute (TPRI). Prof. Kweka earned his Master’s in Business Administration with a focus on Leadership and Governance from the Institute of Accountancy Arusha, Tanzania, graduating with First Class honors. He has also completed postdoctoral training in Plant Pests and Chemical Ecology at the Swedish University of Agriculture and the National Institute for Medical Research in Tanzania. With a career spanning over two decades, Prof. Kweka has made significant contributions to research, policy development, and the management of vector-borne diseases. He is an active member of several professional societies, including the Pan African Mosquito Control Association (PAMCA) and the International Association for Ecology and Health. His work has earned him recognition both locally and internationally, making him a leading figure in his field. Profile Scopus Profile Google Scholar Profile ORCID Profile Education Prof. Eliningaya Kweka has a diverse and robust educational background that underpins his expertise in leadership, governance, and scientific research. He earned a Master’s in Business Administration with a focus on Leadership and Governance from the Institute of Accountancy Arusha, Tanzania, in 2021/2022, graduating with First Class honors. His commitment to continuous professional development is evident from his completion of several certificates, including Strategic Management Tools and Framework (2020), Human Research Protection (2019) through a course organized by Pennsylvania State University, and Middle Managers Leadership Development (2017). Additionally, Prof. Kweka has undergone specialized postdoctoral training in Plant Pests and Chemical Ecology at the Swedish University of Agriculture and the National Institute for Medical Research, Tanzania, supported by a grant from COSTECH, WOTRO, and SIDA. This extensive educational foundation has equipped him with the skills and knowledge necessary to excel in his research and leadership roles. Professional Experience Prof. Eliningaya Kweka has a distinguished professional background, marked by extensive experience in research, leadership, and policy-making in medical entomology and pest management. He currently serves as a Research Professor at the Catholic University of Health and Allied Sciences, Mwanza, Tanzania, a role he has held since November 2021. In addition, he is the Principal Research Officer I at the Tropical Pesticides Research Institute (TPRI), where he has taken on numerous leadership roles, including Chairperson of the TPRI Proposal Review Committee, Head of the Research Department, and Chairperson of the TPRI Strategic Plan Committee. His expertise is further recognized through his roles as Chairperson of the Resource Mobilization Committee at the Tanzania Plant Health and Pesticides Authority, and as a member of the Technical Committee for the Zanzibar Malaria Elimination Programme. Throughout his career, Prof. Kweka has also served as Associate Research Professor and Senior Lecturer at the Catholic University of Health and Allied Sciences, and as Acting Director of Research at TPRI. His contributions extend beyond academia, with significant involvement in organizing national and international conferences on pest management, developing strategic and research plans, and leading committees dedicated to advancing scientific research and public health in Tanzania. His professional journey reflects a deep commitment to enhancing public health and agricultural practices through rigorous research and strategic leadership. Research Interest Prof. Eliningaya Kweka’s research interests are centered around medical entomology, vector ecology, and chemical ecology, with a particular focus on controlling vector-borne diseases such as malaria. His work explores innovative approaches to pest management, including the use of plant-based chemical ecology to develop sustainable and environmentally friendly solutions. Prof. Kweka is deeply interested in the efficacy and safety of pesticides, as well as the ecological impacts of pest control strategies. His research aims to advance understanding in these areas, contributing to improved public health outcomes, particularly in regions heavily impacted by diseases transmitted by mosquitoes and other vectors. Prof. Kweka’s interdisciplinary approach bridges the gap between entomology, ecology, and public health, positioning him at the forefront of efforts to develop effective and sustainable vector control methods. Research Skills Prof. Eliningaya Kweka possesses a robust skill set in medical entomology and vector ecology, specializing in the development and implementation of effective pest management strategies. His expertise includes conducting field studies and laboratory experiments to assess the bioefficacy of pesticides and plant-based solutions. Prof. Kweka is proficient in statistical analysis and data interpretation, allowing him to evaluate complex ecological data. He excels in interdisciplinary collaboration, working with various stakeholders to promote integrated pest management approaches. Through his research, he aims to enhance vector control strategies and improve public health outcomes in affected communities. Award and Recognition Prof. Eliningaya Kweka has received several awards and recognitions throughout his career, underscoring his significant contributions to research and academia. Notably, he was honored with an appreciation letter from Addis Ababa University for serving as an external examiner for PhD candidates in June 2018, reflecting his expertise and commitment to advancing academic standards. Additionally, he secured a prestigious NIH grant (D43TW001505) to pursue his PhD studies at Tumaini University in Tanzania, which facilitated his fieldwork in the western highlands of Kenya and coursework at the University of California, Irvine, from February 2009 to February 2012. Prof. Kweka’s accolades not only highlight his academic achievements but also his dedication to enhancing public health and pest management through rigorous research and mentorship. Conclusion Given Prof. Kweka’s outstanding academic background, leadership in research, active participation in professional communities, and recognized achievements, he is indeed a highly deserving candidate for the Best Researcher Award. His work not only advances scientific understanding but also has tangible benefits for society, particularly in the areas of public health and environmental sustainability. Publication Top Notes Knowledge, attitudes, and practices about malaria and its control in rural northwest Tanzania Cited By: 228 Year: 2010 Journal: Malaria Research and Treatment, 2010(1), 794261 Feeding and resting behaviour of malaria vector, Anopheles arabiensis with reference to zooprophylaxis Cited By: 215 Year: 2007 Journal: Malaria Journal, 6, 1-6 Ethnobotanical study of some mosquito repellent plants in north-eastern Tanzania Cited By: 155 Year: 2008 Journal: Malaria Journal, 7, 1-9 Recent outbreaks of Rift Valley fever in East Africa and the Middle East Cited By: 130 Year: 2014 Journal: Frontiers in Public Health, 2, 169 Co-infections with Plasmodium falciparum, Schistosoma mansoni and intestinal helminths among schoolchildren in endemic areas of northwestern Tanzania Cited By: 120 Year: 2010 Journal: Parasites & Vectors, 3, 1-7 Anopheline larval habitats seasonality and species distribution: a prerequisite for effective targeted larval habitats control programmes Cited By: 116 Year: 2012 Journal: PloS ONE, 7(12), e52084 Predation efficiency of Anopheles gambiae larvae by aquatic predators in western Kenya highlands Cited By: 115 Year: 2011 Journal: Parasites & Vectors, 4, 1-7 Bacterial larvicides used for malaria vector control in sub-Saharan Africa: review of their effectiveness and operational feasibility Cited By: 113 Year: 2019 Journal: Parasites & Vectors, 12, 1-18 Occurrence of the leucine-to-phenylalanine knockdown resistance (kdr) mutation in Anopheles arabiensis populations in Tanzania, detected by a simplified high-throughput method Cited By: 112 Year: 2006 Journal: Malaria Journal, 5, 1-7 Malaria in East African highlands during the past 30 years: impact of environmental changes Cited By: 106 Year: 2012 Journal: Frontiers in Physiology, 3, 315 Effect of deforestation and land use changes on mosquito productivity and development in Western Kenya Highlands: implication for malaria risk Cited By: 100 Year: 2016 Journal: Frontiers in Public Health, 4, 238 Insecticidal activity of the essential oil from fruits and seeds of Schinus terebinthifolia Raddi against African malaria vectors Cited By: 97 Year: 2011 Journal: Parasites & Vectors, 4, 1-10 The current malaria morbidity and mortality in different transmission settings in Western Kenya Cited By: 76 Year: 2018 Journal: PloS ONE, 13(8), e0202031 Impact of climate change on human health and health systems in Tanzania: a review Cited By: 75 Year: 2011 Journal: Tanzania Journal of Health Research, 13(5) Longitudinal evaluation of Ocimum and other plants effects on the feeding behavioral response of mosquitoes (Diptera: Culicidae) in the field in Tanzania Cited By: 72 Year: 2008 Journal: Parasites & Vectors, 1, 1-8
Prof. Eliningaya Kweka has a diverse and robust educational background that underpins his expertise in leadership, governance, and scientific research. He earned a Master’s in Business Administration with a focus on Leadership and Governance from the Institute of Accountancy Arusha, Tanzania, in 2021/2022, graduating with First Class honors. His commitment to continuous professional development is evident from his completion of several certificates, including Strategic Management Tools and Framework (2020), Human Research Protection (2019) through a course organized by Pennsylvania State University, and Middle Managers Leadership Development (2017). Additionally, Prof. Kweka has undergone specialized postdoctoral training in Plant Pests and Chemical Ecology at the Swedish University of Agriculture and the National Institute for Medical Research, Tanzania, supported by a grant from COSTECH, WOTRO, and SIDA. This extensive educational foundation has equipped him with the skills and knowledge necessary to excel in his research and leadership roles.
Prof. Eliningaya Kweka has a distinguished professional background, marked by extensive experience in research, leadership, and policy-making in medical entomology and pest management. He currently serves as a Research Professor at the Catholic University of Health and Allied Sciences, Mwanza, Tanzania, a role he has held since November 2021. In addition, he is the Principal Research Officer I at the Tropical Pesticides Research Institute (TPRI), where he has taken on numerous leadership roles, including Chairperson of the TPRI Proposal Review Committee, Head of the Research Department, and Chairperson of the TPRI Strategic Plan Committee. His expertise is further recognized through his roles as Chairperson of the Resource Mobilization Committee at the Tanzania Plant Health and Pesticides Authority, and as a member of the Technical Committee for the Zanzibar Malaria Elimination Programme. Throughout his career, Prof. Kweka has also served as Associate Research Professor and Senior Lecturer at the Catholic University of Health and Allied Sciences, and as Acting Director of Research at TPRI. His contributions extend beyond academia, with significant involvement in organizing national and international conferences on pest management, developing strategic and research plans, and leading committees dedicated to advancing scientific research and public health in Tanzania. His professional journey reflects a deep commitment to enhancing public health and agricultural practices through rigorous research and strategic leadership. Research Interest Prof. Eliningaya Kweka’s research interests are centered around medical entomology, vector ecology, and chemical ecology, with a particular focus on controlling vector-borne diseases such as malaria. His work explores innovative approaches to pest management, including the use of plant-based chemical ecology to develop sustainable and environmentally friendly solutions. Prof. Kweka is deeply interested in the efficacy and safety of pesticides, as well as the ecological impacts of pest control strategies. His research aims to advance understanding in these areas, contributing to improved public health outcomes, particularly in regions heavily impacted by diseases transmitted by mosquitoes and other vectors. Prof. Kweka’s interdisciplinary approach bridges the gap between entomology, ecology, and public health, positioning him at the forefront of efforts to develop effective and sustainable vector control methods. Research Skills Prof. Eliningaya Kweka possesses a robust skill set in medical entomology and vector ecology, specializing in the development and implementation of effective pest management strategies. His expertise includes conducting field studies and laboratory experiments to assess the bioefficacy of pesticides and plant-based solutions. Prof. Kweka is proficient in statistical analysis and data interpretation, allowing him to evaluate complex ecological data. He excels in interdisciplinary collaboration, working with various stakeholders to promote integrated pest management approaches. Through his research, he aims to enhance vector control strategies and improve public health outcomes in affected communities. Award and Recognition Prof. Eliningaya Kweka has received several awards and recognitions throughout his career, underscoring his significant contributions to research and academia. Notably, he was honored with an appreciation letter from Addis Ababa University for serving as an external examiner for PhD candidates in June 2018, reflecting his expertise and commitment to advancing academic standards. Additionally, he secured a prestigious NIH grant (D43TW001505) to pursue his PhD studies at Tumaini University in Tanzania, which facilitated his fieldwork in the western highlands of Kenya and coursework at the University of California, Irvine, from February 2009 to February 2012. Prof. Kweka’s accolades not only highlight his academic achievements but also his dedication to enhancing public health and pest management through rigorous research and mentorship. Conclusion Given Prof. Kweka’s outstanding academic background, leadership in research, active participation in professional communities, and recognized achievements, he is indeed a highly deserving candidate for the Best Researcher Award. His work not only advances scientific understanding but also has tangible benefits for society, particularly in the areas of public health and environmental sustainability. Publication Top Notes Knowledge, attitudes, and practices about malaria and its control in rural northwest Tanzania Cited By: 228 Year: 2010 Journal: Malaria Research and Treatment, 2010(1), 794261 Feeding and resting behaviour of malaria vector, Anopheles arabiensis with reference to zooprophylaxis Cited By: 215 Year: 2007 Journal: Malaria Journal, 6, 1-6 Ethnobotanical study of some mosquito repellent plants in north-eastern Tanzania Cited By: 155 Year: 2008 Journal: Malaria Journal, 7, 1-9 Recent outbreaks of Rift Valley fever in East Africa and the Middle East Cited By: 130 Year: 2014 Journal: Frontiers in Public Health, 2, 169 Co-infections with Plasmodium falciparum, Schistosoma mansoni and intestinal helminths among schoolchildren in endemic areas of northwestern Tanzania Cited By: 120 Year: 2010 Journal: Parasites & Vectors, 3, 1-7 Anopheline larval habitats seasonality and species distribution: a prerequisite for effective targeted larval habitats control programmes Cited By: 116 Year: 2012 Journal: PloS ONE, 7(12), e52084 Predation efficiency of Anopheles gambiae larvae by aquatic predators in western Kenya highlands Cited By: 115 Year: 2011 Journal: Parasites & Vectors, 4, 1-7 Bacterial larvicides used for malaria vector control in sub-Saharan Africa: review of their effectiveness and operational feasibility Cited By: 113 Year: 2019 Journal: Parasites & Vectors, 12, 1-18 Occurrence of the leucine-to-phenylalanine knockdown resistance (kdr) mutation in Anopheles arabiensis populations in Tanzania, detected by a simplified high-throughput method Cited By: 112 Year: 2006 Journal: Malaria Journal, 5, 1-7 Malaria in East African highlands during the past 30 years: impact of environmental changes Cited By: 106 Year: 2012 Journal: Frontiers in Physiology, 3, 315 Effect of deforestation and land use changes on mosquito productivity and development in Western Kenya Highlands: implication for malaria risk Cited By: 100 Year: 2016 Journal: Frontiers in Public Health, 4, 238 Insecticidal activity of the essential oil from fruits and seeds of Schinus terebinthifolia Raddi against African malaria vectors Cited By: 97 Year: 2011 Journal: Parasites & Vectors, 4, 1-10 The current malaria morbidity and mortality in different transmission settings in Western Kenya Cited By: 76 Year: 2018 Journal: PloS ONE, 13(8), e0202031 Impact of climate change on human health and health systems in Tanzania: a review Cited By: 75 Year: 2011 Journal: Tanzania Journal of Health Research, 13(5) Longitudinal evaluation of Ocimum and other plants effects on the feeding behavioral response of mosquitoes (Diptera: Culicidae) in the field in Tanzania Cited By: 72 Year: 2008 Journal: Parasites & Vectors, 1, 1-8
Prof. Eliningaya Kweka has a distinguished professional background, marked by extensive experience in research, leadership, and policy-making in medical entomology and pest management. He currently serves as a Research Professor at the Catholic University of Health and Allied Sciences, Mwanza, Tanzania, a role he has held since November 2021. In addition, he is the Principal Research Officer I at the Tropical Pesticides Research Institute (TPRI), where he has taken on numerous leadership roles, including Chairperson of the TPRI Proposal Review Committee, Head of the Research Department, and Chairperson of the TPRI Strategic Plan Committee. His expertise is further recognized through his roles as Chairperson of the Resource Mobilization Committee at the Tanzania Plant Health and Pesticides Authority, and as a member of the Technical Committee for the Zanzibar Malaria Elimination Programme. Throughout his career, Prof. Kweka has also served as Associate Research Professor and Senior Lecturer at the Catholic University of Health and Allied Sciences, and as Acting Director of Research at TPRI. His contributions extend beyond academia, with significant involvement in organizing national and international conferences on pest management, developing strategic and research plans, and leading committees dedicated to advancing scientific research and public health in Tanzania. His professional journey reflects a deep commitment to enhancing public health and agricultural practices through rigorous research and strategic leadership.
Sara Hasanpour | Power Electronics | Best Researcher Award Posted on 04/09/202404/09/2024 by ScienceFather Assist Prof Dr. Sara Hasanpour | Power Electronics | Best Researcher Award Researcher at Department of Electrical Engineering, Ramsar Branch, Islamic Azad University, Ramsar, Iran. Sara Hasanpour is a distinguished assistant professor and researcher in power electronics, specializing in high step-up DC-DC converters and renewable energy applications. With over a decade of experience, she has published 34 influential journal and conference papers, including in leading IEEE journals. Her research focuses on innovative converter designs and control strategies, demonstrating significant contributions to the field. Hasanpour’s expertise extends to practical applications, as evidenced by her role as CEO of Ofogh Pardazan Kian Tadbir Co., where she leads research and training initiatives. Her accolades include multiple top researcher awards and recognition for her Ph.D. thesis, underscoring her excellence. Hasanpour’s international collaborations with prominent experts such as Prof. Frede Blaabjerg and Dr. Yam Siwakoti highlight her role in advancing power electronics research globally. Her leadership, awards, and substantial publications make her a compelling candidate for the Research for Best Researcher Award. Profile Scopus Profile ORCID Profile Education Sara Hasanpour holds a Doctor of Philosophy (Ph.D.) in Power Electronics and Electrical Machines from the University of Guilan, where she completed her degree in 2019 with a cumulative GPA of 18.93/20 and a thesis score of 20/20. Her doctoral research focused on proposing new typologies for high step-up DC-DC converters, emphasizing modeling and control to enhance performance indicators. She earned her Master of Science in Power Electronics from Isfahan University of Technology in 2007, with a cumulative GPA of 16.97/20 and a thesis score of 19.20/20, where her work centered on designing and implementing a high power factor electronic ballast for lamps. Dr. Hasanpour completed her Bachelor of Science in Electrical Engineering at Islamic Azad University, Lahijan, in 2002, graduating with a cumulative GPA of 17.96/20 and a thesis score of 20/20. Professional Experience Sara Hasanpour has accumulated over a decade of professional experience in power electronics, currently serving as a Power Electronics Design and Research Engineer at Islamic Azad University, Ramsar Branch. Her role involves the design, implementation, and control of advanced DC-DC converters, including high voltage gain and resonance-based systems for renewable energy applications. She also oversees the development of various power electronics projects and controllers. In addition to her engineering role, Dr. Hasanpour is an Assistant Professor at Islamic Azad University, where she teaches a range of subjects including power electronics, electrical machines, and control systems. As the CEO and Founder of Ofogh Pardazan Kian Tadbir Co., she provides research and training services in power electronics. Her expertise extends to consulting for Petro Iranian Development and Equipment Co., contributing to industrial Ethernet configuration and commissioning. This diverse experience underscores her expertise and leadership in the field. Research Interest Sara Hasanpour’s research primarily focuses on power electronics, with a strong emphasis on the design, modeling, and control of high step-up DC-DC converters for renewable energy applications. Her work explores advanced converter topologies that integrate resonance and quasi-resonance performance, enhancing efficiency and voltage gain. Hasanpour’s innovative contributions include the development of new high-voltage gain converters and semi-quadratic converters, as well as novel approaches to magnetic field generation and reduced-order small signal modeling. Her research also addresses the design and implementation of various controllers for DC-DC converters, including PI, PID, and fast terminal sliding mode controllers. By collaborating with leading experts and utilizing cutting-edge simulation tools, Hasanpour aims to advance the field of power electronics, particularly in optimizing converters for sustainable energy solutions. Her work is characterized by a blend of theoretical advancements and practical implementations. Research Skills Sara Hasanpour possesses exceptional research skills in the field of power electronics, with a particular focus on high step-up DC-DC converters and renewable energy applications. Her expertise includes advanced design and implementation of power converters, such as soft-switching and quasi-resonant converters. She excels in modeling and controlling these systems, utilizing various closed-loop controllers like PI, PID, and Peak Current Mode (PCM) controllers. Her proficiency extends to designing and manufacturing magnetic devices and working with power electronic components, including MOSFETs and diodes. Sara is adept at using simulation software, including MATLAB/Simulink, PowerSIM, and Altium Designer, and has experience with microcontroller programming for power electronics applications. Her ability to lead research teams, supervise Ph.D. students, and collaborate internationally with leading experts enhances her research impact. Her comprehensive skills in both theoretical and practical aspects of power electronics underpin her significant contributions to the field. Award and Recognition Sara Hasanpour has garnered significant recognition for her contributions to power electronics. Her exemplary work has earned her several prestigious awards, including the Top Researcher Award at Islamic Azad University for two consecutive years (2022 and 2023) and the Best Ph.D. Thesis Award in Power Electronics from the Power Electronics Society (PELS) of Iran in 2020. Additionally, she was honored as the Top Ph.D. Student in Power Electronics Engineering by the Professor of Hesabi Festival in both 2019 and 2020. Her academic excellence is further highlighted by her highest honor Ph.D. graduation with a cumulative GPA of 18.93/20 and her top B.Sc. graduation with a GPA of 17.96/20. These accolades reflect her exceptional research achievements, commitment to advancing the field, and her prominent role in power electronics and renewable energy technologies. Conclusion Sara Hasanpour is a strong candidate for the Research for Best Researcher Award due to her extensive experience, impactful publications, and leadership in power electronics research. Her awards and international collaborations further support her suitability for the award. Addressing the suggested areas for improvement could further enhance her profile and contributions to the field. Publication Top Notes Title: A New Soft-Switching High Step-Up DC–DC Converter with Low Voltage Stress Authors: Sharma, P., Hasanpour, S., Kumar, R. Year: 2024 Journal: Energy Science and Engineering Volume: 12 Issue: 7 Pages: 3062–3073 Citations: 1 Title: A New Quadratic DC/DC Converter with Ultrahigh Voltage Gain Authors: Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Volume: 39 Issue: 7 Pages: 8800–8812 Citations: 2 Title: Analysis and Design of a New Ultra-Step-Up DC–DC Converter with Reduced Voltage Stress for Renewable Energy Systems Applications Authors: Hasanpour, S., Nouri, T., Shaneh, M. Year: 2024 Journal: Iranian Journal of Science and Technology – Transactions of Electrical Engineering Volume: 48 Issue: 2 Pages: 817–830 Citations: 2 Title: New Coupled-Inductor High-Gain DC/DC Converter With Bipolar Outputs Authors: Hasanpour, S., Nouri, T. Year: 2024 Journal: IEEE Transactions on Industrial Electronics Volume: 71 Issue: 3 Pages: 2601–2613 Citations: 10 Title: New Step-Up DC/DC Converter With Ripple-Free Input Current Authors: Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Volume: 39 Issue: 2 Pages: 2811–2821 Citations: 8 Title: A New Soft-Switching High Gain DC/DC Converter with Bipolar Outputs Authors: Hasanpour, S., Siwakoti, Y.P., Blaabjerg, F. Year: 2024 Journal: IET Power Electronics Volume: 17 Issue: 1 Pages: 144–156 Citations: 2 Title: A Semi-Quadratic Trans-Inverse High Step-Up DC-DC Converter for Renewable Energy Applications Authors: Nouri, T., Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Status: Article in Press Citations: 1 Title: A Novel Soft-Switching Quadratic High Voltage Gain Trans-Inverse DC/DC Converter Authors: Hasanpour, S. Year: 2024 Journal: IET Power Electronics Status: Article in Press Citations: 1 Title: High Gain Magnetically Coupled Single Switch Quadratic Modified SEPIC DC-DC Converter Authors: Esmaeili, S., Shekari, M., Rasouli, M., Khan, A.A., Hafezi, H. Year: 2023 Journal: IEEE Transactions on Industry Applications Volume: 59 Issue: 3 Pages: 3593–3604 Citations: 20 Title: An Active Clamp Coupled Inductor-Based Soft-Switched Quadratic Boost Converter Authors: Upadhyay, P., Sharma, P., Khandelwal, S., Kumar, R., Hassanpour, S. Year: 2023 Journal: International Journal of Circuit Theory and Applications Volume: 51 Issue: 5 Pages: 2141–2162 Citations: 5
Sara Hasanpour is a distinguished assistant professor and researcher in power electronics, specializing in high step-up DC-DC converters and renewable energy applications. With over a decade of experience, she has published 34 influential journal and conference papers, including in leading IEEE journals. Her research focuses on innovative converter designs and control strategies, demonstrating significant contributions to the field. Hasanpour’s expertise extends to practical applications, as evidenced by her role as CEO of Ofogh Pardazan Kian Tadbir Co., where she leads research and training initiatives. Her accolades include multiple top researcher awards and recognition for her Ph.D. thesis, underscoring her excellence. Hasanpour’s international collaborations with prominent experts such as Prof. Frede Blaabjerg and Dr. Yam Siwakoti highlight her role in advancing power electronics research globally. Her leadership, awards, and substantial publications make her a compelling candidate for the Research for Best Researcher Award. Profile Scopus Profile ORCID Profile Education Sara Hasanpour holds a Doctor of Philosophy (Ph.D.) in Power Electronics and Electrical Machines from the University of Guilan, where she completed her degree in 2019 with a cumulative GPA of 18.93/20 and a thesis score of 20/20. Her doctoral research focused on proposing new typologies for high step-up DC-DC converters, emphasizing modeling and control to enhance performance indicators. She earned her Master of Science in Power Electronics from Isfahan University of Technology in 2007, with a cumulative GPA of 16.97/20 and a thesis score of 19.20/20, where her work centered on designing and implementing a high power factor electronic ballast for lamps. Dr. Hasanpour completed her Bachelor of Science in Electrical Engineering at Islamic Azad University, Lahijan, in 2002, graduating with a cumulative GPA of 17.96/20 and a thesis score of 20/20. Professional Experience Sara Hasanpour has accumulated over a decade of professional experience in power electronics, currently serving as a Power Electronics Design and Research Engineer at Islamic Azad University, Ramsar Branch. Her role involves the design, implementation, and control of advanced DC-DC converters, including high voltage gain and resonance-based systems for renewable energy applications. She also oversees the development of various power electronics projects and controllers. In addition to her engineering role, Dr. Hasanpour is an Assistant Professor at Islamic Azad University, where she teaches a range of subjects including power electronics, electrical machines, and control systems. As the CEO and Founder of Ofogh Pardazan Kian Tadbir Co., she provides research and training services in power electronics. Her expertise extends to consulting for Petro Iranian Development and Equipment Co., contributing to industrial Ethernet configuration and commissioning. This diverse experience underscores her expertise and leadership in the field. Research Interest Sara Hasanpour’s research primarily focuses on power electronics, with a strong emphasis on the design, modeling, and control of high step-up DC-DC converters for renewable energy applications. Her work explores advanced converter topologies that integrate resonance and quasi-resonance performance, enhancing efficiency and voltage gain. Hasanpour’s innovative contributions include the development of new high-voltage gain converters and semi-quadratic converters, as well as novel approaches to magnetic field generation and reduced-order small signal modeling. Her research also addresses the design and implementation of various controllers for DC-DC converters, including PI, PID, and fast terminal sliding mode controllers. By collaborating with leading experts and utilizing cutting-edge simulation tools, Hasanpour aims to advance the field of power electronics, particularly in optimizing converters for sustainable energy solutions. Her work is characterized by a blend of theoretical advancements and practical implementations. Research Skills Sara Hasanpour possesses exceptional research skills in the field of power electronics, with a particular focus on high step-up DC-DC converters and renewable energy applications. Her expertise includes advanced design and implementation of power converters, such as soft-switching and quasi-resonant converters. She excels in modeling and controlling these systems, utilizing various closed-loop controllers like PI, PID, and Peak Current Mode (PCM) controllers. Her proficiency extends to designing and manufacturing magnetic devices and working with power electronic components, including MOSFETs and diodes. Sara is adept at using simulation software, including MATLAB/Simulink, PowerSIM, and Altium Designer, and has experience with microcontroller programming for power electronics applications. Her ability to lead research teams, supervise Ph.D. students, and collaborate internationally with leading experts enhances her research impact. Her comprehensive skills in both theoretical and practical aspects of power electronics underpin her significant contributions to the field. Award and Recognition Sara Hasanpour has garnered significant recognition for her contributions to power electronics. Her exemplary work has earned her several prestigious awards, including the Top Researcher Award at Islamic Azad University for two consecutive years (2022 and 2023) and the Best Ph.D. Thesis Award in Power Electronics from the Power Electronics Society (PELS) of Iran in 2020. Additionally, she was honored as the Top Ph.D. Student in Power Electronics Engineering by the Professor of Hesabi Festival in both 2019 and 2020. Her academic excellence is further highlighted by her highest honor Ph.D. graduation with a cumulative GPA of 18.93/20 and her top B.Sc. graduation with a GPA of 17.96/20. These accolades reflect her exceptional research achievements, commitment to advancing the field, and her prominent role in power electronics and renewable energy technologies. Conclusion Sara Hasanpour is a strong candidate for the Research for Best Researcher Award due to her extensive experience, impactful publications, and leadership in power electronics research. Her awards and international collaborations further support her suitability for the award. Addressing the suggested areas for improvement could further enhance her profile and contributions to the field. Publication Top Notes Title: A New Soft-Switching High Step-Up DC–DC Converter with Low Voltage Stress Authors: Sharma, P., Hasanpour, S., Kumar, R. Year: 2024 Journal: Energy Science and Engineering Volume: 12 Issue: 7 Pages: 3062–3073 Citations: 1 Title: A New Quadratic DC/DC Converter with Ultrahigh Voltage Gain Authors: Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Volume: 39 Issue: 7 Pages: 8800–8812 Citations: 2 Title: Analysis and Design of a New Ultra-Step-Up DC–DC Converter with Reduced Voltage Stress for Renewable Energy Systems Applications Authors: Hasanpour, S., Nouri, T., Shaneh, M. Year: 2024 Journal: Iranian Journal of Science and Technology – Transactions of Electrical Engineering Volume: 48 Issue: 2 Pages: 817–830 Citations: 2 Title: New Coupled-Inductor High-Gain DC/DC Converter With Bipolar Outputs Authors: Hasanpour, S., Nouri, T. Year: 2024 Journal: IEEE Transactions on Industrial Electronics Volume: 71 Issue: 3 Pages: 2601–2613 Citations: 10 Title: New Step-Up DC/DC Converter With Ripple-Free Input Current Authors: Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Volume: 39 Issue: 2 Pages: 2811–2821 Citations: 8 Title: A New Soft-Switching High Gain DC/DC Converter with Bipolar Outputs Authors: Hasanpour, S., Siwakoti, Y.P., Blaabjerg, F. Year: 2024 Journal: IET Power Electronics Volume: 17 Issue: 1 Pages: 144–156 Citations: 2 Title: A Semi-Quadratic Trans-Inverse High Step-Up DC-DC Converter for Renewable Energy Applications Authors: Nouri, T., Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Status: Article in Press Citations: 1 Title: A Novel Soft-Switching Quadratic High Voltage Gain Trans-Inverse DC/DC Converter Authors: Hasanpour, S. Year: 2024 Journal: IET Power Electronics Status: Article in Press Citations: 1 Title: High Gain Magnetically Coupled Single Switch Quadratic Modified SEPIC DC-DC Converter Authors: Esmaeili, S., Shekari, M., Rasouli, M., Khan, A.A., Hafezi, H. Year: 2023 Journal: IEEE Transactions on Industry Applications Volume: 59 Issue: 3 Pages: 3593–3604 Citations: 20 Title: An Active Clamp Coupled Inductor-Based Soft-Switched Quadratic Boost Converter Authors: Upadhyay, P., Sharma, P., Khandelwal, S., Kumar, R., Hassanpour, S. Year: 2023 Journal: International Journal of Circuit Theory and Applications Volume: 51 Issue: 5 Pages: 2141–2162 Citations: 5
Sara Hasanpour holds a Doctor of Philosophy (Ph.D.) in Power Electronics and Electrical Machines from the University of Guilan, where she completed her degree in 2019 with a cumulative GPA of 18.93/20 and a thesis score of 20/20. Her doctoral research focused on proposing new typologies for high step-up DC-DC converters, emphasizing modeling and control to enhance performance indicators. She earned her Master of Science in Power Electronics from Isfahan University of Technology in 2007, with a cumulative GPA of 16.97/20 and a thesis score of 19.20/20, where her work centered on designing and implementing a high power factor electronic ballast for lamps. Dr. Hasanpour completed her Bachelor of Science in Electrical Engineering at Islamic Azad University, Lahijan, in 2002, graduating with a cumulative GPA of 17.96/20 and a thesis score of 20/20.
Sara Hasanpour has accumulated over a decade of professional experience in power electronics, currently serving as a Power Electronics Design and Research Engineer at Islamic Azad University, Ramsar Branch. Her role involves the design, implementation, and control of advanced DC-DC converters, including high voltage gain and resonance-based systems for renewable energy applications. She also oversees the development of various power electronics projects and controllers. In addition to her engineering role, Dr. Hasanpour is an Assistant Professor at Islamic Azad University, where she teaches a range of subjects including power electronics, electrical machines, and control systems. As the CEO and Founder of Ofogh Pardazan Kian Tadbir Co., she provides research and training services in power electronics. Her expertise extends to consulting for Petro Iranian Development and Equipment Co., contributing to industrial Ethernet configuration and commissioning. This diverse experience underscores her expertise and leadership in the field. Research Interest Sara Hasanpour’s research primarily focuses on power electronics, with a strong emphasis on the design, modeling, and control of high step-up DC-DC converters for renewable energy applications. Her work explores advanced converter topologies that integrate resonance and quasi-resonance performance, enhancing efficiency and voltage gain. Hasanpour’s innovative contributions include the development of new high-voltage gain converters and semi-quadratic converters, as well as novel approaches to magnetic field generation and reduced-order small signal modeling. Her research also addresses the design and implementation of various controllers for DC-DC converters, including PI, PID, and fast terminal sliding mode controllers. By collaborating with leading experts and utilizing cutting-edge simulation tools, Hasanpour aims to advance the field of power electronics, particularly in optimizing converters for sustainable energy solutions. Her work is characterized by a blend of theoretical advancements and practical implementations. Research Skills Sara Hasanpour possesses exceptional research skills in the field of power electronics, with a particular focus on high step-up DC-DC converters and renewable energy applications. Her expertise includes advanced design and implementation of power converters, such as soft-switching and quasi-resonant converters. She excels in modeling and controlling these systems, utilizing various closed-loop controllers like PI, PID, and Peak Current Mode (PCM) controllers. Her proficiency extends to designing and manufacturing magnetic devices and working with power electronic components, including MOSFETs and diodes. Sara is adept at using simulation software, including MATLAB/Simulink, PowerSIM, and Altium Designer, and has experience with microcontroller programming for power electronics applications. Her ability to lead research teams, supervise Ph.D. students, and collaborate internationally with leading experts enhances her research impact. Her comprehensive skills in both theoretical and practical aspects of power electronics underpin her significant contributions to the field. Award and Recognition Sara Hasanpour has garnered significant recognition for her contributions to power electronics. Her exemplary work has earned her several prestigious awards, including the Top Researcher Award at Islamic Azad University for two consecutive years (2022 and 2023) and the Best Ph.D. Thesis Award in Power Electronics from the Power Electronics Society (PELS) of Iran in 2020. Additionally, she was honored as the Top Ph.D. Student in Power Electronics Engineering by the Professor of Hesabi Festival in both 2019 and 2020. Her academic excellence is further highlighted by her highest honor Ph.D. graduation with a cumulative GPA of 18.93/20 and her top B.Sc. graduation with a GPA of 17.96/20. These accolades reflect her exceptional research achievements, commitment to advancing the field, and her prominent role in power electronics and renewable energy technologies. Conclusion Sara Hasanpour is a strong candidate for the Research for Best Researcher Award due to her extensive experience, impactful publications, and leadership in power electronics research. Her awards and international collaborations further support her suitability for the award. Addressing the suggested areas for improvement could further enhance her profile and contributions to the field. Publication Top Notes Title: A New Soft-Switching High Step-Up DC–DC Converter with Low Voltage Stress Authors: Sharma, P., Hasanpour, S., Kumar, R. Year: 2024 Journal: Energy Science and Engineering Volume: 12 Issue: 7 Pages: 3062–3073 Citations: 1 Title: A New Quadratic DC/DC Converter with Ultrahigh Voltage Gain Authors: Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Volume: 39 Issue: 7 Pages: 8800–8812 Citations: 2 Title: Analysis and Design of a New Ultra-Step-Up DC–DC Converter with Reduced Voltage Stress for Renewable Energy Systems Applications Authors: Hasanpour, S., Nouri, T., Shaneh, M. Year: 2024 Journal: Iranian Journal of Science and Technology – Transactions of Electrical Engineering Volume: 48 Issue: 2 Pages: 817–830 Citations: 2 Title: New Coupled-Inductor High-Gain DC/DC Converter With Bipolar Outputs Authors: Hasanpour, S., Nouri, T. Year: 2024 Journal: IEEE Transactions on Industrial Electronics Volume: 71 Issue: 3 Pages: 2601–2613 Citations: 10 Title: New Step-Up DC/DC Converter With Ripple-Free Input Current Authors: Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Volume: 39 Issue: 2 Pages: 2811–2821 Citations: 8 Title: A New Soft-Switching High Gain DC/DC Converter with Bipolar Outputs Authors: Hasanpour, S., Siwakoti, Y.P., Blaabjerg, F. Year: 2024 Journal: IET Power Electronics Volume: 17 Issue: 1 Pages: 144–156 Citations: 2 Title: A Semi-Quadratic Trans-Inverse High Step-Up DC-DC Converter for Renewable Energy Applications Authors: Nouri, T., Hasanpour, S., Lee, S.S. Year: 2024 Journal: IEEE Transactions on Power Electronics Status: Article in Press Citations: 1 Title: A Novel Soft-Switching Quadratic High Voltage Gain Trans-Inverse DC/DC Converter Authors: Hasanpour, S. Year: 2024 Journal: IET Power Electronics Status: Article in Press Citations: 1 Title: High Gain Magnetically Coupled Single Switch Quadratic Modified SEPIC DC-DC Converter Authors: Esmaeili, S., Shekari, M., Rasouli, M., Khan, A.A., Hafezi, H. Year: 2023 Journal: IEEE Transactions on Industry Applications Volume: 59 Issue: 3 Pages: 3593–3604 Citations: 20 Title: An Active Clamp Coupled Inductor-Based Soft-Switched Quadratic Boost Converter Authors: Upadhyay, P., Sharma, P., Khandelwal, S., Kumar, R., Hassanpour, S. Year: 2023 Journal: International Journal of Circuit Theory and Applications Volume: 51 Issue: 5 Pages: 2141–2162 Citations: 5
Sara Hasanpour has accumulated over a decade of professional experience in power electronics, currently serving as a Power Electronics Design and Research Engineer at Islamic Azad University, Ramsar Branch. Her role involves the design, implementation, and control of advanced DC-DC converters, including high voltage gain and resonance-based systems for renewable energy applications. She also oversees the development of various power electronics projects and controllers. In addition to her engineering role, Dr. Hasanpour is an Assistant Professor at Islamic Azad University, where she teaches a range of subjects including power electronics, electrical machines, and control systems. As the CEO and Founder of Ofogh Pardazan Kian Tadbir Co., she provides research and training services in power electronics. Her expertise extends to consulting for Petro Iranian Development and Equipment Co., contributing to industrial Ethernet configuration and commissioning. This diverse experience underscores her expertise and leadership in the field.
SANTHANA KRISHNAN T | Power Converters | Best Researcher Award Posted on 31/08/202431/08/2024 by ScienceFather Dr. SANTHANA KRISHNAN T | Power Converters | Best Researcher Award ASSISTANT PROFESSOR (SELECTION GRADE) at RAJALAKSHMI ENGINEERING COLLEGE (AUTONOMOUS),CHENNAI, India T. Santhana Krishnan is an accomplished academic with 17 years of experience in electrical engineering and management. He holds a B.E. in Electrical and Electronics Engineering, an M.Tech in Power Electronics and Drives, and is pursuing a PhD at Anna University. His research focuses on power electronics, renewable energy systems, and control strategies, with numerous publications in national and international journals, including high-impact papers on wind energy and photovoltaic systems. Krishnan has been an Assistant Professor at Rajalakshmi Engineering College since 2005 and has previously lectured at Ayya Nadar Janaki Ammal College. His professional memberships include IEEE, the Institution of Engineers (India), and ISTE. Despite his extensive publication record and teaching experience, enhancing his research impact through higher citations, international collaborations, and securing additional funding could further strengthen his profile in the academic community. Profile ORCID Profile Scopus Profile Google Scholar Education T. Santhana Krishnan’s educational journey is marked by a strong foundation in engineering and management. He completed his Bachelor of Engineering in Electrical and Electronics Engineering from Mepco Schlenk Engineering College, Sivakasi, under Madurai Kamaraj University, graduating with First Class honors. He further pursued a Master of Management and Systems at Thiagarajar College, Madurai Kamaraj University, also achieving First Class. Krishnan continued his academic advancement with a Master of Technology in Power Electronics and Drives from S.R.M. Institute of Science and Technology, where he graduated with a CGPA of 8.62, again with First Class honors. He is currently pursuing a PhD in Electrical and Electronics Engineering at Anna University, focusing on advanced topics in his field. His educational background underscores a commitment to excellence and a robust understanding of both theoretical and practical aspects of electrical engineering and management. Professional Experience T. Santhana Krishnan has garnered extensive professional experience in the field of electrical engineering over a span of 17 years. He began his career as a lecturer in the Department of Management Studies at Ayya Nadar Janaki Ammal College, Sivakasi, from June 2001 to July 2003, where he also served as a Placement Coordinator. Since June 2005, he has been an Assistant Professor-SG at Rajalakshmi Engineering College, Thandalam, contributing significantly to both teaching and research. His roles have encompassed various responsibilities, including curriculum development and student mentoring. His academic journey is complemented by his involvement in research projects, publications, and presentations at both national and international conferences. This experience highlights his commitment to advancing knowledge in electrical engineering and his dedication to fostering academic growth and professional development in his students. Research Interest T. Santhana Krishnan’s research interests predominantly revolve around power electronics and renewable energy systems. His work focuses on developing advanced control strategies and efficient converters for wind and solar energy systems, including high-frequency AC choppers and quasi-resonant boost converters. He has extensively explored sensorless vector control of induction motor drives and the design and implementation of photovoltaic systems. His research also delves into optimizing energy conversion and management systems, aiming to enhance performance and reliability in various applications. Additionally, Krishnan is interested in the integration of these systems into microgrids, utilizing innovative control techniques such as Particle Swarm Optimization (PSO) based Maximum Power Point Tracking (MPPT). His contributions include designing novel solutions for energy efficiency and sustainability, underscoring his commitment to advancing technologies in power electronics and renewable energy. Research Skills T. Santhana Krishnan exhibits a diverse range of research skills critical to advancements in electrical engineering and power systems. His expertise includes power electronics, renewable energy systems, and control strategies, reflected in his extensive publication record. He demonstrates proficiency in modeling and simulation, particularly in areas such as wind energy conversion systems and photovoltaic fed converters. His ability to employ advanced control techniques and optimization methods is evident from his work on MPPT controllers and quasi-resonant converters. Skilled in using tools like MATLAB and EMTP, he adeptly handles complex simulations and analyses. His involvement in national and international conferences indicates strong communication skills and a commitment to staying current with industry developments. Moreover, his membership in professional organizations such as IEEE and ISTE showcases his engagement with the research community and access to a broad network of expertise. Award and Recognition T. Santhana Krishnan has garnered significant recognition for his contributions to the field of electrical engineering. His extensive research in power electronics and renewable energy systems has been showcased in numerous prestigious journals and conferences, including international publications in high-impact journals. As a member of IEEE, the Institution of Engineers (India), and ISTE, he is actively engaged with the global academic and professional community. His dedication to teaching, demonstrated through his 17 years of experience, includes roles as a lecturer and placement coordinator, highlighting his commitment to student development and academic excellence. His work on topics such as wind energy conversion and photovoltaic systems has been well-received, reflecting his expertise and impact in the field. These accomplishments underscore his qualification for prestigious awards and further solidify his reputation as a distinguished researcher and educator. Conclusion T. Santhana Krishnan is a well-qualified candidate for the Best Researcher Award, with a substantial publication record and extensive teaching experience. His work in power electronics and renewable energy systems is significant, and his active engagement in professional organizations further supports his candidacy. To strengthen his application, he could focus on increasing the impact of his research through higher citation rates, expanding international collaborations, and securing additional research funding. Continued contributions to high-impact journals and conferences will also enhance his profile as a leading researcher in his field Publications Top Notes Theoretical Study on Power Distribution Systems for Electric Vehicles Authors: VS Chandrika, A Sivakumar, TS Krishnan, J Pradeep, S Manikandan, … Journal: Intelligent Engineering Applications and Applied Sciences for Sustainability Year: 2023 Citations: 38 Power quality enhancement in sensitive local distribution grid using interval type-II fuzzy logic controlled DSTATCOM Authors: SB Pandu, CK Sundarabalan, NS Srinath, TS Krishnan, GS Priya, … Journal: IEEE Access Year: 2021 Volume and Issue: 9, 59888-59899 Citations: 38 Fuzzy logic based optimal tip speed ratio MPPT controller for grid connected WECS Authors: PS Babu, CK Sundarabalan, C Balasundar, TS Krishnan Journal: Materials Today: Proceedings Year: 2021 Volume and Issue: 45, 2544-2550 Citations: 16 Real time metropolitan bus positioning system design using GPS and GSM Authors: B Janarthanan, T Santhanakrishnan Conference: 2014 International Conference on Green Computing Communication and … Year: 2014 Citations: 16 Optimizing solar power plant efficiency through advanced analytical framework and comparative analysis Authors: V Senthil Kumar, R Aruna, M Varalatchoumy, P Manikannan, … Journal: Journal of Intelligent & Fuzzy Systems Year: 2024 Citations: 5 Stability Analysis and Region in control parameter space of thermal system with constant delays Authors: SB Pandu, T Santhanakrishnan, CK Sundarabalan, V Venkatachalam Journal: Journal of Control Engineering and Applied Informatics Year: 2021 Volume and Issue: 23 (3), 24-31 Citations: 4 Survey on combinations of load frequency control, ABT and economic dispatch control in a deregulated environment Authors: GS Priya, P Sivakumar, TS Krishnan Conference: 2017 International Conference on Computation of Power, Energy Information … Year: 2017 Citations: 2 Photovoltaic-wind-battery and diesel generator-based hybrid energy system for residential buildings in smart city Coimbatore Authors: SK Thirumalai, A Karthick, PK Dhal, S Pundir Journal: Environmental Science and Pollution Research Year: 2024 Volume and Issue: 31 (9), 14229-14238 Citations: 1 An Enhanced Optimal Design of a Phase Changing Material Based Photo Voltaic System using Deep Learning Authors: MA Prasanna Lakshmi G S, Mani P K, S. Sangeetha, T. Santhana Krishnan, T … Conference: 2023 International Conference on Artificial Intelligence and Knowledge … Year: 2023 Citations: 1 A study on the functionality of PID and fuzzy logic controllers for Quadratic Boost Converter (QBC) Authors: SH Arigela, TS Krishnan, SK Krishnakumar, A Mohanraj, MR Mahajan Conference: 2022 International Conference on Power, Energy, Control and Transmission … Year: 2022 Citations: 1
T. Santhana Krishnan is an accomplished academic with 17 years of experience in electrical engineering and management. He holds a B.E. in Electrical and Electronics Engineering, an M.Tech in Power Electronics and Drives, and is pursuing a PhD at Anna University. His research focuses on power electronics, renewable energy systems, and control strategies, with numerous publications in national and international journals, including high-impact papers on wind energy and photovoltaic systems. Krishnan has been an Assistant Professor at Rajalakshmi Engineering College since 2005 and has previously lectured at Ayya Nadar Janaki Ammal College. His professional memberships include IEEE, the Institution of Engineers (India), and ISTE. Despite his extensive publication record and teaching experience, enhancing his research impact through higher citations, international collaborations, and securing additional funding could further strengthen his profile in the academic community. Profile ORCID Profile Scopus Profile Google Scholar Education T. Santhana Krishnan’s educational journey is marked by a strong foundation in engineering and management. He completed his Bachelor of Engineering in Electrical and Electronics Engineering from Mepco Schlenk Engineering College, Sivakasi, under Madurai Kamaraj University, graduating with First Class honors. He further pursued a Master of Management and Systems at Thiagarajar College, Madurai Kamaraj University, also achieving First Class. Krishnan continued his academic advancement with a Master of Technology in Power Electronics and Drives from S.R.M. Institute of Science and Technology, where he graduated with a CGPA of 8.62, again with First Class honors. He is currently pursuing a PhD in Electrical and Electronics Engineering at Anna University, focusing on advanced topics in his field. His educational background underscores a commitment to excellence and a robust understanding of both theoretical and practical aspects of electrical engineering and management. Professional Experience T. Santhana Krishnan has garnered extensive professional experience in the field of electrical engineering over a span of 17 years. He began his career as a lecturer in the Department of Management Studies at Ayya Nadar Janaki Ammal College, Sivakasi, from June 2001 to July 2003, where he also served as a Placement Coordinator. Since June 2005, he has been an Assistant Professor-SG at Rajalakshmi Engineering College, Thandalam, contributing significantly to both teaching and research. His roles have encompassed various responsibilities, including curriculum development and student mentoring. His academic journey is complemented by his involvement in research projects, publications, and presentations at both national and international conferences. This experience highlights his commitment to advancing knowledge in electrical engineering and his dedication to fostering academic growth and professional development in his students. Research Interest T. Santhana Krishnan’s research interests predominantly revolve around power electronics and renewable energy systems. His work focuses on developing advanced control strategies and efficient converters for wind and solar energy systems, including high-frequency AC choppers and quasi-resonant boost converters. He has extensively explored sensorless vector control of induction motor drives and the design and implementation of photovoltaic systems. His research also delves into optimizing energy conversion and management systems, aiming to enhance performance and reliability in various applications. Additionally, Krishnan is interested in the integration of these systems into microgrids, utilizing innovative control techniques such as Particle Swarm Optimization (PSO) based Maximum Power Point Tracking (MPPT). His contributions include designing novel solutions for energy efficiency and sustainability, underscoring his commitment to advancing technologies in power electronics and renewable energy. Research Skills T. Santhana Krishnan exhibits a diverse range of research skills critical to advancements in electrical engineering and power systems. His expertise includes power electronics, renewable energy systems, and control strategies, reflected in his extensive publication record. He demonstrates proficiency in modeling and simulation, particularly in areas such as wind energy conversion systems and photovoltaic fed converters. His ability to employ advanced control techniques and optimization methods is evident from his work on MPPT controllers and quasi-resonant converters. Skilled in using tools like MATLAB and EMTP, he adeptly handles complex simulations and analyses. His involvement in national and international conferences indicates strong communication skills and a commitment to staying current with industry developments. Moreover, his membership in professional organizations such as IEEE and ISTE showcases his engagement with the research community and access to a broad network of expertise. Award and Recognition T. Santhana Krishnan has garnered significant recognition for his contributions to the field of electrical engineering. His extensive research in power electronics and renewable energy systems has been showcased in numerous prestigious journals and conferences, including international publications in high-impact journals. As a member of IEEE, the Institution of Engineers (India), and ISTE, he is actively engaged with the global academic and professional community. His dedication to teaching, demonstrated through his 17 years of experience, includes roles as a lecturer and placement coordinator, highlighting his commitment to student development and academic excellence. His work on topics such as wind energy conversion and photovoltaic systems has been well-received, reflecting his expertise and impact in the field. These accomplishments underscore his qualification for prestigious awards and further solidify his reputation as a distinguished researcher and educator. Conclusion T. Santhana Krishnan is a well-qualified candidate for the Best Researcher Award, with a substantial publication record and extensive teaching experience. His work in power electronics and renewable energy systems is significant, and his active engagement in professional organizations further supports his candidacy. To strengthen his application, he could focus on increasing the impact of his research through higher citation rates, expanding international collaborations, and securing additional research funding. Continued contributions to high-impact journals and conferences will also enhance his profile as a leading researcher in his field Publications Top Notes Theoretical Study on Power Distribution Systems for Electric Vehicles Authors: VS Chandrika, A Sivakumar, TS Krishnan, J Pradeep, S Manikandan, … Journal: Intelligent Engineering Applications and Applied Sciences for Sustainability Year: 2023 Citations: 38 Power quality enhancement in sensitive local distribution grid using interval type-II fuzzy logic controlled DSTATCOM Authors: SB Pandu, CK Sundarabalan, NS Srinath, TS Krishnan, GS Priya, … Journal: IEEE Access Year: 2021 Volume and Issue: 9, 59888-59899 Citations: 38 Fuzzy logic based optimal tip speed ratio MPPT controller for grid connected WECS Authors: PS Babu, CK Sundarabalan, C Balasundar, TS Krishnan Journal: Materials Today: Proceedings Year: 2021 Volume and Issue: 45, 2544-2550 Citations: 16 Real time metropolitan bus positioning system design using GPS and GSM Authors: B Janarthanan, T Santhanakrishnan Conference: 2014 International Conference on Green Computing Communication and … Year: 2014 Citations: 16 Optimizing solar power plant efficiency through advanced analytical framework and comparative analysis Authors: V Senthil Kumar, R Aruna, M Varalatchoumy, P Manikannan, … Journal: Journal of Intelligent & Fuzzy Systems Year: 2024 Citations: 5 Stability Analysis and Region in control parameter space of thermal system with constant delays Authors: SB Pandu, T Santhanakrishnan, CK Sundarabalan, V Venkatachalam Journal: Journal of Control Engineering and Applied Informatics Year: 2021 Volume and Issue: 23 (3), 24-31 Citations: 4 Survey on combinations of load frequency control, ABT and economic dispatch control in a deregulated environment Authors: GS Priya, P Sivakumar, TS Krishnan Conference: 2017 International Conference on Computation of Power, Energy Information … Year: 2017 Citations: 2 Photovoltaic-wind-battery and diesel generator-based hybrid energy system for residential buildings in smart city Coimbatore Authors: SK Thirumalai, A Karthick, PK Dhal, S Pundir Journal: Environmental Science and Pollution Research Year: 2024 Volume and Issue: 31 (9), 14229-14238 Citations: 1 An Enhanced Optimal Design of a Phase Changing Material Based Photo Voltaic System using Deep Learning Authors: MA Prasanna Lakshmi G S, Mani P K, S. Sangeetha, T. Santhana Krishnan, T … Conference: 2023 International Conference on Artificial Intelligence and Knowledge … Year: 2023 Citations: 1 A study on the functionality of PID and fuzzy logic controllers for Quadratic Boost Converter (QBC) Authors: SH Arigela, TS Krishnan, SK Krishnakumar, A Mohanraj, MR Mahajan Conference: 2022 International Conference on Power, Energy, Control and Transmission … Year: 2022 Citations: 1
T. Santhana Krishnan has garnered extensive professional experience in the field of electrical engineering over a span of 17 years. He began his career as a lecturer in the Department of Management Studies at Ayya Nadar Janaki Ammal College, Sivakasi, from June 2001 to July 2003, where he also served as a Placement Coordinator. Since June 2005, he has been an Assistant Professor-SG at Rajalakshmi Engineering College, Thandalam, contributing significantly to both teaching and research. His roles have encompassed various responsibilities, including curriculum development and student mentoring. His academic journey is complemented by his involvement in research projects, publications, and presentations at both national and international conferences. This experience highlights his commitment to advancing knowledge in electrical engineering and his dedication to fostering academic growth and professional development in his students. Research Interest T. Santhana Krishnan’s research interests predominantly revolve around power electronics and renewable energy systems. His work focuses on developing advanced control strategies and efficient converters for wind and solar energy systems, including high-frequency AC choppers and quasi-resonant boost converters. He has extensively explored sensorless vector control of induction motor drives and the design and implementation of photovoltaic systems. His research also delves into optimizing energy conversion and management systems, aiming to enhance performance and reliability in various applications. Additionally, Krishnan is interested in the integration of these systems into microgrids, utilizing innovative control techniques such as Particle Swarm Optimization (PSO) based Maximum Power Point Tracking (MPPT). His contributions include designing novel solutions for energy efficiency and sustainability, underscoring his commitment to advancing technologies in power electronics and renewable energy. Research Skills T. Santhana Krishnan exhibits a diverse range of research skills critical to advancements in electrical engineering and power systems. His expertise includes power electronics, renewable energy systems, and control strategies, reflected in his extensive publication record. He demonstrates proficiency in modeling and simulation, particularly in areas such as wind energy conversion systems and photovoltaic fed converters. His ability to employ advanced control techniques and optimization methods is evident from his work on MPPT controllers and quasi-resonant converters. Skilled in using tools like MATLAB and EMTP, he adeptly handles complex simulations and analyses. His involvement in national and international conferences indicates strong communication skills and a commitment to staying current with industry developments. Moreover, his membership in professional organizations such as IEEE and ISTE showcases his engagement with the research community and access to a broad network of expertise. Award and Recognition T. Santhana Krishnan has garnered significant recognition for his contributions to the field of electrical engineering. His extensive research in power electronics and renewable energy systems has been showcased in numerous prestigious journals and conferences, including international publications in high-impact journals. As a member of IEEE, the Institution of Engineers (India), and ISTE, he is actively engaged with the global academic and professional community. His dedication to teaching, demonstrated through his 17 years of experience, includes roles as a lecturer and placement coordinator, highlighting his commitment to student development and academic excellence. His work on topics such as wind energy conversion and photovoltaic systems has been well-received, reflecting his expertise and impact in the field. These accomplishments underscore his qualification for prestigious awards and further solidify his reputation as a distinguished researcher and educator. Conclusion T. Santhana Krishnan is a well-qualified candidate for the Best Researcher Award, with a substantial publication record and extensive teaching experience. His work in power electronics and renewable energy systems is significant, and his active engagement in professional organizations further supports his candidacy. To strengthen his application, he could focus on increasing the impact of his research through higher citation rates, expanding international collaborations, and securing additional research funding. Continued contributions to high-impact journals and conferences will also enhance his profile as a leading researcher in his field Publications Top Notes Theoretical Study on Power Distribution Systems for Electric Vehicles Authors: VS Chandrika, A Sivakumar, TS Krishnan, J Pradeep, S Manikandan, … Journal: Intelligent Engineering Applications and Applied Sciences for Sustainability Year: 2023 Citations: 38 Power quality enhancement in sensitive local distribution grid using interval type-II fuzzy logic controlled DSTATCOM Authors: SB Pandu, CK Sundarabalan, NS Srinath, TS Krishnan, GS Priya, … Journal: IEEE Access Year: 2021 Volume and Issue: 9, 59888-59899 Citations: 38 Fuzzy logic based optimal tip speed ratio MPPT controller for grid connected WECS Authors: PS Babu, CK Sundarabalan, C Balasundar, TS Krishnan Journal: Materials Today: Proceedings Year: 2021 Volume and Issue: 45, 2544-2550 Citations: 16 Real time metropolitan bus positioning system design using GPS and GSM Authors: B Janarthanan, T Santhanakrishnan Conference: 2014 International Conference on Green Computing Communication and … Year: 2014 Citations: 16 Optimizing solar power plant efficiency through advanced analytical framework and comparative analysis Authors: V Senthil Kumar, R Aruna, M Varalatchoumy, P Manikannan, … Journal: Journal of Intelligent & Fuzzy Systems Year: 2024 Citations: 5 Stability Analysis and Region in control parameter space of thermal system with constant delays Authors: SB Pandu, T Santhanakrishnan, CK Sundarabalan, V Venkatachalam Journal: Journal of Control Engineering and Applied Informatics Year: 2021 Volume and Issue: 23 (3), 24-31 Citations: 4 Survey on combinations of load frequency control, ABT and economic dispatch control in a deregulated environment Authors: GS Priya, P Sivakumar, TS Krishnan Conference: 2017 International Conference on Computation of Power, Energy Information … Year: 2017 Citations: 2 Photovoltaic-wind-battery and diesel generator-based hybrid energy system for residential buildings in smart city Coimbatore Authors: SK Thirumalai, A Karthick, PK Dhal, S Pundir Journal: Environmental Science and Pollution Research Year: 2024 Volume and Issue: 31 (9), 14229-14238 Citations: 1 An Enhanced Optimal Design of a Phase Changing Material Based Photo Voltaic System using Deep Learning Authors: MA Prasanna Lakshmi G S, Mani P K, S. Sangeetha, T. Santhana Krishnan, T … Conference: 2023 International Conference on Artificial Intelligence and Knowledge … Year: 2023 Citations: 1 A study on the functionality of PID and fuzzy logic controllers for Quadratic Boost Converter (QBC) Authors: SH Arigela, TS Krishnan, SK Krishnakumar, A Mohanraj, MR Mahajan Conference: 2022 International Conference on Power, Energy, Control and Transmission … Year: 2022 Citations: 1