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Tat Joo TEO
Tat Joo TEO
Sonstige NamenDaniel TJ Teo, TEO Tat Joo, TJ TEO
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Titel
Zitiert von
Zitiert von
Jahr
Design and modeling of a six-degree-of-freedom magnetically levitated positioner using square coils and 1-D Halbach arrays
H Zhu, TJ Teo, CK Pang
IEEE Transactions on Industrial Electronics 64 (1), 440-450, 2016
912016
A Large Deflection and High Payload Flexure-Based Parallel Manipulator for UV Nanoimprint Lithography: Part I. Modeling and Analyses
TJ Teo, G Yang, I Chen
Precision Engineering 38 (4), 861-871, 2014
732014
A generic approximation model for analyzing large nonlinear deflection of beam-based flexure joints
TJ Teo, IM Chen, G Yang, W Lin
Precision Engineering 34 (3), 607-618, 2010
662010
Principle and modeling of a novel moving coil linear-rotary electromagnetic actuator
TJ Teo, H Zhu, SL Chen, G Yang, CK Pang
IEEE Transactions on Industrial Electronics 63 (11), 6930-6940, 2016
632016
Integrated Servo-Mechanical Design of a Fine Stage for a Coarse/Fine Dual-Stage Positioning System
H Zhu, CK Pang, TJ Teo
Mechatronics, IEEE/ASME Transactions on 21 (1), 329-338, 2016
602016
A 3-D printed Ti-6Al-4V 3-DOF compliant parallel mechanism for high precision manipulation
MT Pham, TJ Teo, SH Yeo, P Wang, MLS Nai
IEEE/ASME Transactions on Mechatronics 22 (5), 2359-2368, 2017
592017
Magnetically levitated parallel actuated dual-stage (Maglev-PAD) system for six-axis precision positioning
H Zhu, TJ Teo, CK Pang
IEEE/ASME Transactions on Mechatronics 24 (4), 1829-1838, 2019
552019
A flexure-based electromagnetic linear actuator
TJ Teo, IM Chen, G Yang, W Lin
Nanotechnology 19 (31), 315501, 2008
522008
Structural optimization for flexure-based parallel mechanisms–Towards achieving optimal dynamic and stiffness properties
GZ Lum, TJ Teo, SH Yeo, G Yang, M Sitti
Precision Engineering 42, 195-207, 2015
472015
Integrating mechanism synthesis and topological optimization technique for stiffness-oriented design of a three degrees-of-freedom flexure-based parallel mechanism
GZ Lum, TJ Teo, G Yang, SH Yeo, M Sitti
Precision Engineering 39, 125-133, 2015
442015
Compliant manipulators
TJ Teo, G Yang, IM Chen
Handbook of Manufacturing Engineering and Technology; Springer: London, UK …, 2014
442014
Towards Comprehensive Modeling and Large Angle Tracking Control of a Limited Angle Torque Actuator with Cylindrical Halbach
SL Chen, N Kamaldin, TJ Teo, W Liang, C Teo, G Yang, K Tan
Mechatronics, IEEE/ASME Transactions on 21 (1), 431-442, 2016
432016
Data-driven multiobjective controller optimization for a magnetically levitated nanopositioning system
X Li, H Zhu, J Ma, TJ Teo, CS Teo, M Tomizuka, TH Lee
IEEE/ASME Transactions on Mechatronics 25 (4), 1961-1970, 2020
412020
A flexure-based parallel actuation dual-stage system for large-stroke nanopositioning
H Zhu, CK Pang, TJ Teo
IEEE Transactions on Industrial Electronics 64 (7), 5553-5563, 2017
412017
Electromagnetic Actuator Design Analysis Using a Two-Stage Optimization Method With Coarse-Fine Model Output Space Mapping
J Hey, T Teo, B Phuong, G Yang, R Martinez-Botas
IEEE Transcation on Industrial Electronics 61 (10), 5453 - 5464, 2014
402014
A Large Deflection and High Payload Flexure-Based Parallel Manipulator for UV Nanoimprint Lithography: Part II. Stiffness Modeling and Performance Evaluation
TJ Teo, I Chen, G Yang
Precision Engineering 38 (4), 872-884, 2014
392014
Millimeters-stroke nanopositioning actuator with high positioning and thermal stability
TJ Teo, VP Bui, G Yang, IM Chen
IEEE/ASME Transactions on Mechatronics 20 (6), 2813-2823, 2015
382015
Analysis and design of a 3-DOF flexure-based zero-torsion parallel manipulator for nano-alignment applications
G Yang, TJ Teo, IM Chen, W Lin
2011 IEEE international conference on robotics and automation, 2751-2756, 2011
372011
A flexure-based electromagnetic nanopositioning actuator with predictable and re-configurable open-loop positioning resolution
TJ Teo, G Yang, IM Chen
Precision Engineering 40, 249-260, 2015
332015
Analysis and control of a 6 DOF maglev positioning system with characteristics of end-effects and eddy current damping
H Zhu, CK Pang, TJ Teo
Mechatronics 47, 183-194, 2017
322017
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