Project overview
This multidisciplinary project is an international collaboration between Georgia Tech, Georgia State University and University of 天发娱乐棋牌_天发娱乐APP-官网|下载 in the area of applied mathematics, nonlinear dynamics and energy harvesting with soft electroactive polymers. The project addresses gaps and opportunities in mathematical developments and in practical applications for impact-based engineering devices and systems with non-smooth dynamics, critical for understanding the harvesting of vibrational energy. The main research objective is to develop a universal suite of mathematical methodologies for the analysis and optimized performance of deterministic and stochastic non-smooth engineering systems. These approaches are pursued with a focus on practical engineering models of vibro-impacting energy harvesting systems and nonlinear dynamic dampers, within the broad area of targeted energy transfer. Integrating novel nonlinear, stochastic, and computational approaches with experimental and real-world data both for energy harvesting and for devices that mitigate vibration will pave new pathways for analysis-based design and model validation.
Staff
Lead researchers
Other researchers
Collaborating research institutes, centres and groups
Research outputs
Henrik Sykora, Rachel Kuske & Daniil Yurchenko,
2022, Computers & Structures, 273
Type: article
Sam Dulin, Kailee Lin, Larissa Serdukova, Rachel Kuske & Daniil Yurchenko,
2022, International Journal of Mechanical Sciences, 217
Type: article
Larissa Serdukova, Rachel Kuske & Daniil Yurchenko,
2021, Journal of Sound and Vibration, 492
Type: article