Publikationen
- Design Optimization of a Miniaturized Thermoelectric Generator
- Towards a System-Level Model of a Tunable Dual-Frequency Piezoelectric Energy Harvester
- Towards System-level Simulation of an Electromagnetic Energy Harvester Model via Equivalent Circuit Extraction from ANSYS Maxwell 3D
- Model Order Reduction of a Microelectronic Package Subjected to Temperature Cycling and Vibration Test
- Efficient design optimization of a miniaturized thermoelectric generator for electrically active implants based on parametric model order reduction, International journal for numerical methods in biomedical engineering , 2021
- Efficient design optimization of a thermoelectric generator by a combination of model order reduction and thermal submodeling technique
- Implicit Schur Complement for Model Order Reduction of Second Order Piezoelectric Energy Harvester Model
- Towards System-Level Simulation of a Miniature Electromagnetic Energy Harvester Model, Electronics, 2023, S. Art.Nr.: 3252–Art.Nr.: 3252
- Towards efficient design optimization of a miniaturized thermoelectric generator for electrically active implants via model order reduction and submodeling technique, International journal for numerical methods in biomedical engineering , 2020, S. 33311–33311
- Stable reduced order modeling of piezoelectric energy harvesting modules using implicit Schur complement, Microelectronics reliability, 2018, S. 148–155
- Stable Parametric Model Order Reduction of Piezoelectric Energy Harvester by Matrix Interpolation, IFAC-PapersOnLine, 2022, S. 217–222
- Quasi-Schur Transformation for the Stable Compact Modeling of Piezoelectric Energy Harvester Devices
- Matrix Interpolation-Based Parametric Model Order Reduction of a Miniaturized Electromagnetic Energy Harvester Model
- Stable compact modeling of piezoelectric energy harvester devices, Compel : international journal of computation & mathematics in electrical & electronic engineering , 2020, S. 467–480
- System-Level Model and Simulation of a Frequency-Tunable Vibration Energy Harvester, Micromachines, 2020, S. 91–91
- Efficient Simulation of Nonlinear Plastic Models in Microelectronics
