University of Applied Sciences, Darmstadt - Germany

Author Profile

🎓 Early academic pursuits

Vinit Vijay Deshpande embarked on his academic journey with a bachelor of technology in mechanical engineering from the college of engineering, pune, graduating in 2010 with an impressive cgpa of 8.74/10. his passion for mechanics and computational sciences led him to pursue a master of technology in engineering mechanics at the prestigious indian institute of technology, delhi, where he graduated in 2013 with a remarkable cgpa of 9.93/10. his master's research under prof. puneet mahajan focused on the mechanical behavior of composite materials, which laid a strong foundation for his future endeavors. currently, he is on the verge of completing his phd in computational mechanics at the university of applied sciences, darmstadt, where his thesis focuses on "computational strategies for characterization, reconstruction, and property estimation of ceramic foam," under the guidance of prof. dr. romana piat, achieving magna cum laude honors.

🏢 Professional endeavors

Vinit's professional path has been a dynamic blend of academic research and industrial experience. his early industry exposure began as a trainee in computer-aided engineering at tata technologies ltd, where he focused on developing mesh models for vehicle safety and durability studies. he further enhanced his practical expertise at hero motocorp's centre of innovation and technology as an analyst, leading simulations to optimize vehicle dynamics and braking systems for two-wheelers. transitioning into academia, he has significantly contributed as a scientific assistant and now as a research associate in the computational mechanics group at the university of applied sciences, darmstadt, where he leads innovative projects on modeling conductive polymer composites and porous ceramics.

🧠 Contributions and research focus

Vinit’s research revolves around developing advanced computational methods to solve complex problems in material science. his key contributions include microstructure reconstruction algorithms, constitutive modeling, and the application of machine learning-based surrogate models to predict material behavior. his innovative work on random sequential adsorption Computational mechanics algorithms has advanced the modeling of composite microstructures, while his finite element simulations have provided deep insights into fracture mechanics and electrical conductivity in complex materials. his efforts to integrate data-driven models, such as neural networks and path-finding algorithms, have positioned him at the forefront of computational material characterization.

🏅 Accolades and recognition

Vinit has earned academic distinctions throughout his career, most notably graduating magna cum laude for his phd research, a testament to his dedication and excellence. his outstanding Computational mechanics performance during his master's program at iit delhi also earned him top honors. beyond formal accolades, his work has been recognized through his contributions to high-impact projects and research collaborations, as reflected in his growing presence on platforms such as orcid and scopus, where his scholarly work continues to make an impact.

🌍 Impact and influence

Vinit's research has significantly influenced the fields of computational mechanics and materials engineering. his innovative algorithms and simulation techniques have been vital in enhancing Computational mechanics the understanding of microstructural behavior, directly contributing to the development of more efficient and robust materials, such as conductive polymer composites and porous ceramics. through his academic collaborations and mentorship roles, vinit has played a pivotal role in advancing computational strategies that benefit both scientific communities and industrial applications, bridging the gap between theoretical research and practical implementation.

🔬 Legacy and future contributions

Looking ahead, vinit aims to further push the boundaries of computational mechanics by integrating emerging technologies like artificial intelligence and machine learning into microstructural analysis and material property prediction. his vision is to develop versatile surrogate modeling frameworks that can accelerate the design of advanced materials with tailored properties, ultimately contributing to industries such as aerospace, automotive, and electronics. with a strong foundation in both academic research and industrial applications, vinit aspires to leave a lasting legacy of innovation and interdisciplinary collaboration in computational materials science.

Notable Publications

Title: Biaxial compression failure of brittle foams: A transfer learning-based strategy
Authors: Vinit Vijay Deshpande; Romana Piat
Journal: Procedia Structural Integrity
Title: Numerical Strategies to Study Compression Failure in Brittle Foams with 3D Realistic Microstructures
Authors: Vinit Vijay Deshpande; Romana Piat
Journal: Advanced Structured Materials
Title: Numerical studies of the elastic properties of ceramic foam by creation of the artificial microstructures after processing of computed tomographic images
Authors: Romana Piat; Vinit Vijay Deshpande
Journal: AIP Conference Proceedings
Title: Compression failure of porous ceramics: A computational study about the effect of volume fraction on damage evolution and failure
Authors: Vinit Vijay Deshpande; Romana Piat
Journal: Mechanics of Materials
Title: Application of statistical functions to the numerical modelling of ceramic foam: From characterisation of CT-data via generation of the virtual microstructure to estimation of effective elastic properties
Authors: Vinit Vijay Deshpande; Kay André Weidenmann; Romana Piat
Journal: Journal of the European Ceramic Society

Prof. Dr. Canan G. Nebigil-Désaubry – Cardiovascular – Best Researcher Award

Posted on 17/02/202517/02/2025 by sciencefather

Prof. Dr. Canan G. Nebigil-Désaubry - Cardiovascular - Best Researcher Award

INSERM, UMR1260 University of Strasbourg - France

Author Profile

ORCID

Early academic pursuits 🎓

Canan G. Nebigil-Désaubry embarked on her academic journey with a pharm.d. from ankara university, where her interest in pharmacology and molecular biology began to take shape. she further pursued a ph.d. at the university of tennessee, delving deeper into molecular signaling pathways. her academic excellence and passion for biomedical research led her to postdoctoral training under nobel laureate professor robert lefkowitz at duke university, where she gained invaluable insights into g protein-coupled receptors (gpcrs), setting the stage for her future research.

Professional endeavors 💼

After completing her postdoctoral training, dr. nebigil-désaubry's career flourished as a senior scientist at the national institutes of health (nih) and later at the institute of genetics and molecular and cellular biology (igbmc). her exemplary work earned her an atip/avenir award, enabling her to join the european school of biotechnology (esbs) at the university of strasbourg. currently, she serves as the director of research at cnrs, inserm umr1260 regenerative nanomedicine, where she continues to make significant contributions to cardiovascular and metabolic research.

Contributions and research focus 🔬

Dr. Nebigil-désaubry's research primarily explores the role of gpcrs, particularly serotonin and prokineticin receptors, in cardiovascular development and disease. she established the critical Cardiovascular roles of these receptors in heart development and pathology, notably identifying the serotonin 5-ht2b receptor's pivotal role in embryonic cardiac development. her team was also the first to investigate prokineticin signaling in cardiac and metabolic disorders, revealing its potential as a therapeutic target for heart disease, obesity, and diabetes. her groundbreaking discovery of the first non-peptidic pkr1 agonist, is20, marked a significant milestone in cardioprotection and cardio-oncology.

Accolades and recognition 🏆

Dr. Nebigil-désaubry's innovative research has earned her numerous accolades, including the prestigious atip/avenir award. her contributions to cardiovascular and metabolic research are Cardiovascular recognized globally, with multiple drug discovery patents to her name. the inclusion of is20 in the international union of basic and clinical pharmacology (iuphar) guide to pharmacology as a selective pkr1 agonist further underscores the significance of her work in the scientific community.

Impact and influence 💡

The impact of dr. nebigil-désaubry's research extends beyond academic circles, influencing clinical practices and therapeutic strategies in cardiology and oncology. her identification of the Cardiovascular prokineticin/pkr1 signaling pathway as a regulator of epicardial adipose tissue development has provided new avenues for managing heart failure with preserved ejection fraction (hfpef) and cardiometabolic disorders. her work in cardio-oncology aims to address the pressing need for early biomarkers and cardioprotective therapeutics in chemotherapy-induced heart failure.

Legacy and future contributions 🕊️

Dr. Nebigil-désaubry's legacy is one of innovation and excellence in cardiovascular research. her pioneering work in cardiac regeneration and metabolic disease management has laid the foundation for future advancements in precision medicine. with her recent development of a 3d cardiac organoid-tumor system, she is poised to accelerate drug discovery and biomarker identification, ultimately improving patient outcomes and shaping the future of regenerative medicine and cardio-oncology.

Notable Publications

Title: Flavaglines: Their Discovery from Plants Used in Traditional Chinese Medicine, Synthesis, and Drug Development Against Cancer and Immune Disorders
Author(s): Dong Wang, Mustafa Ali Tezeren, Hussein Abou Hamdan, Peng Yu, Canan Nebigil-Désaubry, Laurent Désaubry
Journal: Current Chinese Chemistry, 2022
Title: Prohibitin ligands: a growing armamentarium to tackle cancers, osteoporosis, inflammatory, cardiac and neurological diseases
Author(s): Dong Wang, Redouane Tabti, Sabria Elderwish, Hussein Abou-Hamdan, Amel Djehal, Peng Yu, Hajime Yurugi, Krishnaraj Rajalingam, Canan G. Nebigil, Laurent Désaubry
Journal: Cellular and Molecular Life Sciences, 2020
Title: SFPH proteins as therapeutic targets for a myriad of diseases
Author(s): Dong Wang, Redouane Tabti, Sabria Elderwish, Amel Djehal, Nora Chouha, Franck Pinot, Peng Yu, Canan G. Nebigil, Laurent Desaubry
Journal: Bioorganic and Medicinal Chemistry Letters, 2020
Title: Flavaglines as natural products targeting eIF4A and prohibitins: From traditional Chinese medicine to antiviral activity against coronaviruses
Author(s): Canan G. Nebigil, Christiane Moog, Stéphan Vagner, Nadia Benkirane-Jessel, Duncan Smith, Laurent Désaubry
Journal: European Journal of Medicinal Chemistry, 2020
Title: Prokineticin signaling in heart-brain developmental axis: Therapeutic options for heart and brain injuries
Author(s): Laurent Désaubry, Anumantha Kanthasamy, Canan G. Nebigil
Journal: Pharmacological Research, 2020

Dr. Michael Bekele Maru – Civil Engineering – Best Paper Award

Posted on 17/02/202517/02/2025 by sciencefather

Dr. Michael Bekele Maru - Civil Engineering - Best Paper Award

Sungkyunkwan University, Suwon Campus,2nd Engineering Complex,26220 - South Korea

Author Profile

GOOGLE SCHOLAR

🎓 Early academic pursuits

Michael Bekele maru embarked on his academic journey at addis ababa university in ethiopia, where he earned a b.sc in civil, architectural, and environmental system engineering. his undergraduate thesis focused on the structural design of a multi-story building, laying the foundation for his future endeavors in structural engineering. his quest for advanced knowledge led him to sungkyunkwan university in south korea, where he pursued a combined m.sc and ph.d. in civil, architectural, and environmental system engineering. under the guidance of professor seunghee park, michael's dissertation on enhancing lidar data processing for building facade segmentation and 3d reconstruction showcased his innovative approach to integrating technology with civil engineering.

💼 Professional endeavors

Michael's professional journey began as a site engineer with addis gedle general contractor, where he honed his skills in quality supervision, project monitoring, and construction planning. his role as a project engineer at nasew construction plc further expanded his expertise in project synchronization, scheduling, and quality assurance. transitioning to academia, michael served as a graduate researcher at sungkyunkwan university's smart construction it lab, where he contributed significantly to optical sensor applications in structural health monitoring. currently, as a postdoctoral researcher at the same institution, he continues to explore cutting-edge technologies for structural assessment and digital twin applications.

🔬 Contributions and research focus

Michael's research is characterized by its innovative use of lidar technology, computer vision, and augmented reality in structural health monitoring. his work on algorithmic-based damage Civil Engineering detection, 3d reconstruction techniques, and point cloud analysis has advanced the field significantly. he has developed detailed 3d models for crack detection, utilized lidar for shape change analysis, and integrated ar applications for real-time structural assessments. his ongoing projects include camera-lidar feature-based fusion for bridge monitoring, close-up imaging for crack assessment, and semantic-driven 3d model generation using ar.

🏆 Accolades and recognition

Michael's contributions to structural health monitoring have earned him recognition within the academic and engineering communities. his innovative research has been showcased in Civil Engineering numerous conferences and publications, highlighting his expertise in lidar technology, computer vision, and ar integration. his work has not only enhanced structural assessment methodologies but also set new standards for efficiency and accuracy in the field.

💡 Impact and influence

Michael's research has had a profound impact on the field of structural health monitoring, particularly in the integration of advanced technologies for damage detection and assessment. his Civil Engineering development of 3d reconstruction techniques and point cloud analysis has improved the accuracy and efficiency of structural evaluations, influencing both academic research and practical applications in civil engineering.

🌍 Legacy and future contributions

Michael Bekele maru's legacy is one of innovation, precision, and technological integration in civil engineering. his work continues to inspire future researchers and engineers, setting a benchmark for excellence in structural health monitoring. as he advances in his career, michael aims to further explore the potential of digital twins, augmented reality, and deep learning in structural assessments, contributing to safer and more efficient infrastructure management worldwide.

Notable Publications

Title: Comparison of depth camera and terrestrial laser scanner in monitoring structural deflections
Author(s): MB Maru, D Lee, KD Tola, S Park
Journal: Sensors, 2020
Title: Beam deflection monitoring based on a genetic algorithm using LiDAR data
Author(s): MB Maru, D Lee, G Cha, S Park
Journal: Sensors, 2020
Title: Improved building facade segmentation through digital twin-enabled RandLA-Net with empirical intensity correction model
Author(s): MB Maru, Y Wang, H Kim, H Yoon, S Park
Journal: Journal of Building Engineering, 2023
Title: Unsupervised domain adaptation-based crack segmentation using transformer network
Author(s): DA Beyene, MB Maru, T Kim, S Park, S Park
Journal: Journal of Building Engineering, 2023
Title: Improved building MEP systems semantic segmentation in point clouds using a novel multi-class dataset and local-global vector transformer network
Author(s): Shuju Jing, Gichun Cha, Michael Bekele Maru, Byoungjoon Yu, Seunghee Park
Journal: Journal of Building Engineering

Prof. Sunday Olayinka Oyedepo – Mechanical Engineering – Outstanding Scientist Award

Posted on 31/08/202431/08/2024 by sciencefather

Prof. Sunday Olayinka Oyedepo - Mechanical Engineering - Outstanding Scientist Award

Bells University of Technology - Nigeria

Author Profile

SCOPUS

Early academic pursuits 🎓

professor Sunday Olayinka Oyedepo's academic journey began with a bachelor’s degree in mechanical engineering from the university of ilorin, nigeria, followed by a master’s degree in mechanical engineering from the university of ibadan, nigeria. he further pursued a ph.d. in mechanical engineering at covenant university, nigeria, where he specialized in energy systems and environmental noise. these foundational studies equipped him with the deep technical knowledge and research skills that have defined his career.

Professional endeavors 🏢

with over 23 years of research and teaching experience, professor oyedepo has made significant contributions in both academia and industry. he is currently a full professor at the department of mechanical and biomedical engineering at bells university of technology, ota, nigeria. his career includes extensive supervision of graduate and undergraduate projects, and he has held various editorial roles, including associate editor and guest editor for numerous international journals. his leadership extends to serving as the head of the department of mechanical engineering at covenant university and chairing international conferences on sustainable engineering.

Contributions and research focus 🔬

professor oyedepo's research is deeply rooted in energy systems and environmental noise. he has published over 185 papers in leading journals, including renewable and sustainable energy reviews, energy conversion and management, and environmental monitoring assessment. his Mechanical Engineering research spans thermal energy system design, energy management, renewable energy technologies, and heat transfer analysis. his work also includes innovative approaches in energy conversion systems and the application of nanotechnology in engineering.

Accolades and recognition 🏆

professor oyedepo’s outstanding contributions to mechanical engineering have earned him substantial recognition. he has been listed among the top 2% scholars globally and the top nigerian scientists in university engineering and technology rankings. his accolades include the Mechanical Engineering outstanding researcher award in mechanical engineering from stair progressive forum, india. these honors reflect his significant impact and reputation in the field of mechanical engineering.

Impact and influence 🌟

the impact of professor oyedepo’s research is profound, influencing both academic and practical aspects of energy systems and environmental engineering. his work has improved understanding and management of energy systems, contributing to advancements in sustainable Mechanical Engineering development. his research outcomes help shape policies and practices in energy management and environmental noise control, making a notable difference in both local and global contexts.

Legacy and future contributions 🔮

professor oyedepo's legacy is built on his extensive research, teaching, and leadership in mechanical engineering. his future contributions are poised to continue shaping the field, particularly in advancing energy systems and promoting sustainable practices. his commitment to innovation and excellence ensures that his work will leave a lasting impact on both the academic community and the broader engineering field.

Notable Publications

Effect of Oil Bean Stalk Filler on the Thermo-Mechanical Properties of Developed 2023(1)

Experimental investigation of heating values and chemical compositions of selected 2023(1)

Typical meteorological year data analysis for optimal usage of energy systems at six 2023(1)

Promoting the use of bioenergy in developing nations: a CDM route to sustainable development 2023(4)

Assessment of the wind energy potential and economic viability of selected sites along Nigeria’s 2023(5)