Smart Devices and Systems for Vibration Sensing and Energy Harvesting
Tao, Kai (editor)
Li, Yunjia (editor)
This reprint focuses on state-of-the-art vibration sensing and energy harvesting technologies. The 11 chapters can be divided into three aspects: (i) new materials for vibration energy harvesting applications, (ii) design and fabrication of vibration energy harvesters (VEHs), and (iii) system-level integration and testing of VEHs.
Keywordstemperature and humidity control; decoupling control; reliability test; microtester; strain sensor; negative resistance sensitivity coefficient; carbon nanotubes (CNTs); energy harvesting; hydraulic energy-harvesting shock absorber; hydraulic interconnected suspension; vibration characteristics; vehicle dynamics; ultrasonic motor; single-phase driven; bending vibration; curve-shaped configuration; variable potential well; dynamic behavior; linear-arch beam; tri-stable piezoelectric energy harvester; nonlinear magnetic force; dynamic modeling; vibration energy harvesting; all-in-one; frequency broadening; polymer beam; tunable resonant frequency; flexible electronics; electret/hydrogel-based tactile sensors; pyramidal parented hydrogel; anti-freezing and anti-drying; Halbach array; iron sheet; electromagnetic; energy harvester; MEMS; planar coil; n/a
Publication date and placeBasel, 2023