JIN Lei
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Name
JIN Lei
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Title
Associate Professor
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Address
Room 104, Teaching building No.3, School of Mechatronical Engineering, Beijing Institute of Technology, Beijing, China
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Tel
+86-10-68912080
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Email
jinlei@bit.edu.cn
Research Interests
MEMS; Control techniques of mechatronic system
Academic Achievements
1.The effect of different shapes of cantilever beam in piezoelectric energy harvesters on their electrical output. Microsystem Technologies (accepted) (SCI)
2.Design and Vibration Sensitivity Analysis of a MEMS Tuning Fork Gyroscope with an Anchored Diamond Coupling Mechanism. Sensors (SCI)
3.Design and vibration sensitivity of a MEMS tuning fork gyroscope with anchored coupling mechanism. Microsystem Technologies (SCI)
4.Vibration Sensitivity Reduction of Micromachined Tuning Fork Gyroscopes through Stiffness Match Method with Negative Electrostatic Spring Effect. Sensors (SCI)
5.Micro Size Effect of Silicon Material on the Performance of Micro Gyroscope. Adv Sci Lett (EI)
6.Characteristics of the piezoelectric energy harvesting from the torsional vibration of thin walled cantilever beams. MESA), 2016 12th IEEE/ASME (EI)
7.Structure Simulation Analysis of Piezoelectric Energy Harvesting Device. Advanced Materials Research (EI)
8.Influence of the Human Body on the Characteristics of A Pedestrian Bridge. Proc. of the 18th ICRQD (EI)
9.Analysis on the Sticking Failure of Micro-Comb Driving Structure. Key Engineering Materials (EI)
10.Corner Effect of Micro-Comb Capacitive Structure. Key Engineering Materials (EI)
11.Study on the output characteristics of piezoelectric electromagnetic hybrid harvest structure;(MESA), 2016 12th IEEE/ASME (EI)
-
NameJIN Lei
-
TitleAssociate Professor
-
AddressRoom 104, Teaching building No.3, School of Mechatronical Engineering, Beijing Institute of Technology, Beijing, China
-
Tel+86-10-68912080
-
Emailjinlei@bit.edu.cn
Research Interests
MEMS; Control techniques of mechatronic system
Academic Achievements
1.The effect of different shapes of cantilever beam in piezoelectric energy harvesters on their electrical output. Microsystem Technologies (accepted) (SCI)
2.Design and Vibration Sensitivity Analysis of a MEMS Tuning Fork Gyroscope with an Anchored Diamond Coupling Mechanism. Sensors (SCI)
3.Design and vibration sensitivity of a MEMS tuning fork gyroscope with anchored coupling mechanism. Microsystem Technologies (SCI)
4.Vibration Sensitivity Reduction of Micromachined Tuning Fork Gyroscopes through Stiffness Match Method with Negative Electrostatic Spring Effect. Sensors (SCI)
5.Micro Size Effect of Silicon Material on the Performance of Micro Gyroscope. Adv Sci Lett (EI)
6.Characteristics of the piezoelectric energy harvesting from the torsional vibration of thin walled cantilever beams. MESA), 2016 12th IEEE/ASME (EI)
7.Structure Simulation Analysis of Piezoelectric Energy Harvesting Device. Advanced Materials Research (EI)
8.Influence of the Human Body on the Characteristics of A Pedestrian Bridge. Proc. of the 18th ICRQD (EI)
9.Analysis on the Sticking Failure of Micro-Comb Driving Structure. Key Engineering Materials (EI)
10.Corner Effect of Micro-Comb Capacitive Structure. Key Engineering Materials (EI)
11.Study on the output characteristics of piezoelectric electromagnetic hybrid harvest structure;(MESA), 2016 12th IEEE/ASME (EI)