Shaveta Shaveta
Papers
2
Total Citations
6
H-Index
2
About
Shaveta Shaveta is a rising researcher in the field of microelectromechanical systems (MEMS), with a focused expertise in the design, optimization, and thermal management of MEMS-based gyroscopes. Her work directly addresses critical performance bottlenecks—sensitivity, bandwidth, noise, and temperature drift—that limit the deployment of these sensors in high-stakes applications such as defence, navigation, robotics, and aerospace. In her 2024 study, she proposed novel tapered-based thermal compensation techniques to mitigate temperature-induced errors, a significant contribution toward ensuring reliable gyroscope operation under varying environmental conditions. Her subsequent 2025 work advanced the field further by optimizing gyroscope design for enhanced sensitivity and reduced noise, balancing trade-offs that have long challenged MEMS engineers. Though early in her career, with each of her most-cited papers garnering 3 citations, Shaveta is establishing a strong foundation for impactful research. Her systematic approach to solving real-world MEMS reliability issues positions her as a promising voice in the next generation of sensor technologists.
Research Focus
Key Achievements
Top Papers
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