Tác giả :

 

CONTACT INFO

Name

Truong Nguyen Luan Vu

Academic Position

Assoc. Prof./High-Class Lecturer

Academic Degree

PhD.

Office

Dean’s office

Building

HighTech Building

Phone

0909.011.136

Email

vuluantn@hcmute.edu.vn

FIELDS OF EXPERTISE / RESEARCH INTERESTS

  • Industrial Machine Design and Manufacturing
  • Modern Cutting Machine
  • Multivariable Control
  • Process Control

EDUCATION CAREER

Qualification including any specialism

Awarding Institution

Date awarded

Grade/Level achieved

Ph.D.

Yeungnam University,
The Republic of Korea

2009

Excellent

M.S.

Yeungnam University,
The Republic of Korea

2005

Excellent

B.S.

Ho Chi Minh City University of Technology, HCM City National University, Vietnam

2000

Good

SUMMARY OF ACHIEVEMENTS

[1]. Associate Professor, 2014

[2]. Marquis Who’s Who in the World 2011.

[3]. International Professor, College of Engineering, Yeungnam Universirty, Rep. Korea (9/2010 ~ 9/2012)

[4]. Postdoctoral Research Fellow, College of Engineering, Yeungnam University, Rep. Korea (9/2009 ~ 08/2010)

[5]. Full Scholarship in Ph.D. Course from Yeungnam University, Rep. Korea, 2005

[6]. Full Scholarship in Master Course from Yeungnam University, Rep. Korea, 2003

[7]. Full Scholarship in Advanced Professional Training, Germany, 2002

[8]. Lecturer,  Department of Mechanical Engineering, HCM City University of Technical Education, 2000

PUBLICATION

BOOK/BOOK CHAPTER

[1] Truong Nguyen Luan Vu and Lee Moon Yong, Analytical Design of Robust Multi-Loop PI Controller for Multivariable Processes, Advances in Machine Learning and Data Analysis, Springer, 2009

[2] Truong Nguyen Luan Vu, PID Controller Design for Process with time Delay, Vietnam National University- Ho Chi Minh City Press, 2018

[3] Truong Nguyen Luan Vu, Multi-loop PID Controller: Analysis, Design, and Tuning for Multivariable Processes, Vietnam National University- Ho Chi Minh City Press, 2018

Thesis

[1] Robust Multi-Loop PI/PID Controller Design for Multivariable Processes, Ph.D. Thesis, 2009

[2] Optimal Tuning of Multiple-Input, Multiple-Output Processes, M.S. Thesis, 2005

JOURNALS

[1]. Truong Nguyen Luan Vu, Nguyen Van Trang, Phan Tan Hai, Analytical design of PID controller for enhancing ride comfort of active vehicle suspension system, IEEE, International Conference on System Science and Engineering (ICSSE), pp. 305-308, 2017

[2]. Truong Nguyen Luan Vu, Le Linh, Vo Lam Chuong, Advanced IMC-PID Controller Design for the Disturbance Rejection of First Order Plus Time Delay Processes, IEEE, International Conference on System Science and Engineering (ICSSE), pp. 279-283, 2017

[3]. Vo Lam Chuong, Truong Nguyen Luan Vu, Identification and Dynamic Matrix Control Algorithm for a Heating Process, pp. 642-645, IEEE, International Conference on System Science and Engineering (ICSSE), pp. 642-645, 2017

[4]. Truong, N.L.V., Le, H. G., Le, L. Fractional-Order PI Controller Tuning Rules for Cascade Control System, International Journal of Electrical, Computer, Energetic, Electronic and Communication Engineering, 10(7), 82-886, 2016.

[5]. Truong, N.L.V., Le, H. G., Le, L. Design of IMC-PID Controller Cascaded Filter for Simplified Decoupling Control System, International Journal of Electrical, Computer, Energetic, Electronic and Communication Engineering, 10(7), 887-902, 82-886, 2016.

[6]. Truong, N.L.V., Le, H. G., Le, L., Analytical Design of IMC-PID Controller for Ideal Decoupling Embedded in Multivariable Smith Predictor Control System, 10(7), 872-876, 2016.    

[7]. Truong, N.L.V.; Lee, M. Smith predictor based fractional-order PI control for time-delay processes, Korean Journal of Chemical Engineering 31 (8), 1321-1329, 2014

[8]. Truong, N.L.V. A New Analytical Design Based on the Effect of Closed-Loop Interaction In Multi-Loop, GTSD, 2014

[9]. Truong, N.L.V. Design of simplified decoupling smith control scheme for multivariable process with multiple time delays, GTSD, 2014

[10].       Truong, N.L.V. Design of simplified decoupling smith control scheme for multivariable process with multiple time delays, GTSD, 2014

[11].       TNL Vu, HG Le, TN Dang, L Le, TL Doan, TT Nguyen. Fractional-order PI controllers design based on IMC scheme for enhanced performance of dead-time processes, ICCAS, 2013.

[12].       Truong, N.L.V.; Lee, M. An Extended Method of Simplified Decoupling for Multivariable Processes with Multiple Time Delays. Journal of Chemical Engineering of Japan 46 (4), 279-293, 2013.

[13].       Truong, N.L.V.; Lee, M. Analytical Design of Fractional-Order Proportional-Integral Controllers for Time-Delay Processes. ISA Transactions 52 (5), 583-591, 2013.

[14].       Truong, N.L.V.; Lee, M., Cao. T. H. H. Industrial PI controller of a Smith predictor for optimal servo control of a FOPDT processes with output constraint, World Academic of Science, Engineering and Technology, 30 (1), 511-520, 2012.

[15].       Truong, N.L.V.; Lee, M., Enhanced Simplified Decoupling for multivariable processes with multiple time delays, The 31st IASTED Asian Conference on Modelling, Identification, and Control, 2012

[16].       Truong, N.L.V.; Lee, M. A unified approach to the design of advanced PID controllers for time-delay processes. Korean Journal of Chemical Engineering, 30 (3), 546-558, 2012.

[17].       Truong, N.L.V.; Jujuly, M.M.; Lee, M. Analytical Design of PID Controller for Improved Disturbance Rejection of Delay-free Processes. Korean Chem. Eng. Res., Vol. 49, No. 5, pp. 565-570, 2011.

[18].       Truong, N.L.V.; Lee, M. Design of Extended Simplified Decoupling for Multivariable Processes with Multiple Time Delays, International Conference on Control, Automation and Systems, 2011.

[19].       Truong, N.L.V.; Lee, M. Analytical Tuning Rules for Fractional Order Proportional Integral controllers, International Conference on Control, Automation and Systems, 2011.

[20].       Truong, N.L.V.; Lee, M. Analytical design of IMC based PID controller for set-point tracking and enhanced disturbance rejection of processes without time delay, International Conference on Chemical Engineering (ICChE2011), 2011.

[21].       Truong, N.L.V.; Lee, Design of Extended Simplified Decoupling for Multivariable Processes with Multiple Time Delays. M. International Conference on Control, Automation and Systems, in Kintex, Gyeonggi-do, Korea, 2011.

[22].       Truong, N.L.V.; Lee, M. Analytical Tuning Rules for Fractional Order Proportional Integral controllers. International Conference on Control, Automation and Systems, in Kintex, Gyeonggi-do, Korea, 2011.

[23].       Truong, N.L.V.; Lee, M. Independent Design of Multi-loop PID Controllers for Interacting Multivariable Processes. Journal of Process Control, Vol. 20, pp. 922-933, 2010.

[24].       Truong, N.L.V.; Lee, M. Multi-loop PI Controller Design Based on Direct Synthesis for Interacting multi-time delay Processes. ISA Transactions, Vol. 49, pp. 79-86, 2010.

[25].       Truong, N.L.V; Lee, M. Analytical Design of Multi-Loop PI Controllers for Interactive Multivariable Processes. Journal of Chemical Engineering of Japan, Vol. 43, No. 2, pp. 196-208, 2010.

[26].       Truong, N.L.V.; Lee, M. Design of Advanced Multi-Loop PI Controller for Multi-Delay Processes. Journal of Institute of Control, Robotics and Systems, Vol. 16, No. 1, pp. 77-82, 2010.

[27].       Truong, N.L.V.; Lee, M. Independent Design of Multi-loop PI/PID Controllers for Multi-delay Processes, International Conference on Computer, Electrical, and Systems Science, and Engineering, 2009.

[28].       Truong, N.L.V.; Lee, M. Analytical Design of Robust Multi-loop PI Controller for Multivariable Process, ICROS-SICE International Joint Conference, 2009.

[29].       Truong, N.L.V.; Lee, M. Robust Multi-loop PID Controller Design for Interacting Multivariable Processes, Korea Institute of Chemical Engineering, 2009.

[30].       Truong, N.L.V.; Lee, M. Robust Multi-loop PI Controller Design for Multivariable Processes, Korea Automatic Control Conference, 2009.

[31].       Truong, N.L.V.; Lee, M. Robust Multi-loop IMC-PID Controller Design for Multi-delay Processes, Korea Institute of Chemical Engineering, 2009.

[32].       Truong, N.L.V.; Lee, M. Independent Design of Multi-loop PI/PID Controllers for Multi-delay Processes. International Conference on Computer, Electrical, and Systems Science, and Engineering, Bangkok, Thailand, 2009.

[33].       Truong, N.L.V.; Hong, S.; Lee, M. Analytical Design of Robust Multi-loop PI Controller for Multivariable Process. ICROS-SICE International Joint Conference, in Fukuoka International Congress Center, Fukuoka, Japan, 2009.

[34].       Truong, N.L.V.; Lee, M. Robust Multi-loop PI Controller Design for Multivariable Processes, KACC, Korea, 2009.

[35].       Truong, N.L.V.; Lee, M. Robust Multi-loop PID Design for Interacting Multivariable Processes, KIChE, Korea, 2009.

[36].       Truong, N.L.V.; Lee, M. IMC-PID Approach: An effective way to get an analytical design of robust PID, International Conference on Control, Automation and Systems, 2008.

[37].       Truong, N.L.V.; Lee, M. Multi-loop PI Controller Design for Enhanced Disturbance Rejection in Multi-delay Processes. International Journal of Mathematics and Computers in Simulation. Vol. 2, No. 1, pp. 89-94, 2008.

[38].       Truong, N.L.V.; Lee, M. Analytical Design of Multi-loop PI Controllers Based on the Direct Synthesis for Multi-delay Processes, Korea Institute of Chemical Engineering, 2008.

[39].       Truong, N.L.V.; Lee, M. Multi-loop PI/PID Controller Design Based on Direct Synthesis for Multivariable Systems, International Conference  on modeling, Simulation and Control, UC Berkeley, San Francisco, CA, USA, 2008.

[40].       Truong, N.L.V; Shamsuzzoha, M.; Moonyong Lee. IMC-PID Approach: An effective way to get an analytical design of robust PID controller. International Conference on Control, Automation and Systems (ICCAS), COEX, Seoul, South Korea, 2008.

[41].       Truong, N.L.V.; Lee, M. Analytical Design of Multi-loop PI Controllers Based on the Direct Synthesis for Multi-delay Processes. KIChE, 26(2), Korea, 2008.

[42].       Truong, N.L.V; Lee, J.; Lee, M. Design of Multi-Loop PID Controllers Based on the Generalized IMC-PID Method with Mp Criterion. International Journal of Control, Automation, and Systems, Vol. 5, No. 2, pp. 112-117, 2007.

[43].       Truong, N.L.V; Lee, J.; Lee, M. Design of Robust PID Controllers for MIMO Systems, Theories and Application of Chemical Engineering, 2007.

[44].       Truong, N.L.V.; Lee, M. Optimal Design of Multi-loop PI Controllers for Enhanced Disturbance Rejection in Multivariable Processes. International Conference on Dynamical Systems and Control, Arachon, France, 2007.

[45].       Truong, N.L.V.; Lee, M. Design of Decentralized PID Controller for Enhanced Robust Stability of Multivariable Control Systems. Proc. AIChE, Utah, USA, 2007.

[46].       Truong, N.L.V; Lee. J.; Lee, M. Analytical Design of Multi-loop PI Controller for Disturbance Rejection in Multivariable Processes. Journal of Control, Automation, and Systems Engineering, Vol. 12, No. 5, pp. 505-508, 2006.

[47].       Truong, N.L.V.; Lee, M. Design of Multi-loop PI Controller for Disturbance Rejection in Multivariable Processes. Theories and Application of Chem. Eng., Vol.  12, No. 1, pp. 116-119, 2006.

[48].       Truong, N.L.V.; Lee, M. Multi-loop PI Controller Design Based on Disturbance Rejection of Multivariable Processes using Ms Criterion.  Theories and Application of Chem. Eng., Vol. 12, No. 2, pp. 1470-1473, 2006.

[49].       Truong, N.L.V.; Lee, M. Optimal Design Method Based on Mp criteria for multi-loop PID Controllers. Theories and Application of Chem. Eng., Vol.  11, No. 1, pp. 190-193, 2005.

[50].       Truong, N.L.V.; Lee, M. Comparison of Multi-loop PID controller Tuning Methods. Theories and Application of Chem. Eng., Vol.  11, No. 2, pp. 1793-1796, 2005.

[51].       Truong, N.L.V; Lee, K. H; Lee, M. Optimal Tuning Combined with BLT and Mp Criteria for Multi-loop PID Controllers. Theories and Application of Chem. Eng., Vol.  10, No. 2, pp. 1293-1296, 2004.


Comments
Full Name: *  
Email: *  
Title: *  
Captcha:
 
 
   
  
 
 
   
 *

time

:

time

:

time














FACEBOOK