Assist. Prof. Dr. Cesar Vasques, University of Aveiro, Portugal
Dr. César Vasques, an accomplished mechanical engineer 🎓, earned his MSc (2003) and PhD (2008) from the University of Porto, Portugal. With expertise in vibrations, acoustics, and structural health monitoring 🏗️, he has held key roles in academia and industry, including INEGI, EFACEC, and the University of Aveiro. He has led 13+ R&D projects (€4M+), collaborated with ESA and EDA 🚀, and published extensively 📚. As an invited expert for the European Commission, he has evaluated €28M+ H2020 projects. His work spans aerospace, energy, and mechatronics, making impactful contributions to engineering innovation.
Professional Profile
Google Scholar
Education 🎓
Assist. Prof. Dr. César Vasques 🎓 is a distinguished academic with a Ph.D. in Mechanical Engineering from the University of Porto, Portugal 🇵🇹. With a strong background in mechanical, aerospace, and energy engineering 🚀⚡, he has contributed significantly to research and education. Dr. Vasques has held various academic positions, including Assistant Professor at multiple universities, where he has mentored students and advanced scientific knowledge 📚. His expertise and dedication to innovation make him a leading figure in his field, continuously pushing the boundaries of engineering excellence 🔬💡.
Work Experience 💼
Dr. César Vasques has demonstrated exceptional leadership in research and innovation, successfully leading 13 R&D projects, including collaborations with prestigious organizations like ESA 🌍 (European Space Agency) and EDA 🛡️ (European Defence Agency). Managing a budget of over 4 million euros 💶, he has driven groundbreaking advancements in engineering. Additionally, his participation in 11 more projects, with a combined budget exceeding 7 million euros, highlights his strategic vision and expertise 📊. Dr. Vasques continues to push the boundaries of research, fostering innovation and technological progress for the future 🔧💡.
Awards 🏅
Dr. César Vasques has earned prestigious accolades for his contributions to engineering and research. He was honored with the Best National Ph.D. Thesis Award in Applied and Computational Mechanics (2008) 🏅 and received the Best Student Article Award 📜. His impactful research has been highlighted twice by IOP and Elsevier 🌍. Actively engaged in the global scientific community, Dr. Vasques has participated in 32+ international conferences as a scientific board member, session chair, and organizer 🎤📊. His achievements underscore his dedication to advancing knowledge and fostering innovation in engineering 🔬💡.
Research Focus
Assist. Prof. Dr. César M. A. Vasques specializes in mechanical engineering, with a primary research focus on vibration control, smart materials, and viscoelastic damping technologies ⚙️🔬. His work explores active vibration control, piezoelectric actuation, and finite element modeling, contributing to advancements in structural dynamics and acoustics 🏗️📈. Dr. Vasques has also delved into experimental validation of damping models and optical fiber sensors for structural monitoring 🏭📡. His expertise spans feedback control strategies, multibody system dynamics, and smart beam applications, making significant impacts in aerospace, automotive, and civil engineering .
Publications 📚
Active vibration control of smart piezoelectric beams: comparison of classical and optimal feedback control strategies
Viscoelastic Damping Technologies-Part I: Modeling and Finite Element Implementation.
Arbitrary active constrained layer damping treatments on beams: Finite element modelling and experimental validation
Coupled three‐layered analysis of smart piezoelectric beams with different electric boundary conditions
Combined feedback/feedforward active control of vibration of beams with ACLD treatments: Numerical simulation
Active vibration control of a smart beam through piezoelectric actuation and laservibrometer sensing: simulation, design and experimental implementation
Active vibration control of spatial flexible multibody systems
Experimental identification of GHM and ADF parameters for viscoelastic damping modeling