luong

Dr. Huynh Trung Luong

Associate Professor
Industrial & Manufacturing Engineering 

P.O. Box 4, Klong Luang 

Pathumthani Thailand 12120 

Phone: (662) 524-5683;

Fax: (662) 524-5697 

E-mail: luong@ait.ac.th
URL: -

 


EDUCATION

·         D. Eng., Industrial System Engineering, Asian Institute of Technology, Thailand, 2000
·         M. Eng., Industrial System Engineering, Asian Institute of Technology, Thailand, 1995

RESEARCH INTERESTS

·         Establishment of emergency inventory policies and inventory policies for perishable products

·         Supply chain design and measures of bullwhip effect in supply chains

·         Availability-based and reliability-based maintenance

·         Fuzzy quality control charts

·         Network flows related problems.

SELECTED PUBLICATIONS

·         Dang, N.M., Babel, M.S., and Luong, H.T., (2011). “Evaluation of Food Risk Parameters in the Day River Flood Diversion Area, Red River Delta, Vietnam,” Natural Hazards Vol. 56, No. 1, pp.169-194, DOI: 10.1007/s11069-010-9558-x.

·         Yousuk, R., and Luong, H.T., (2011).  Modelling a two-retailer inventory system with preventive lateral transshipment using expected path approach,” European Journal of Industrial Engineering (accepted for publication)

·         Senjuntichai, A., Techanitisawad, A, and Luong, H.T., (2010). “The Analysis of Patent Option for RDA Project Valuation,” Journal of Advanced Mechanical Design, Systems, and Manufacturing, Vol. 4(3), pp. 683-700.

·         Saha, C., Luong, H.T., Azix, M.H., and Rattanalert, T. (2010). “Simulation of the Air Flow Characteristic inside a Hard Disk Drive by applying a Computational Fluid Dynamics Software,”  Journal of World Academy of Science, Engineering and Technology, Vol. 72, pp. 308-313.

·         Kamolsin, P., Soni, P., Salokhe, V.M., Babel, M.S., and Luong, H.T. (2010).Physico-mechanical harvesting properties of hydrilla (Hydrilla verticillata) and pondweed (Potamogeton malaianus),  International Agricultural Engineering Journal, Vol. 19, No. 4, pp. 1-7.

·         Hien Duc, T.T., Luong, H.T., and Kim, Y-D. (2010). “Effect of the Third-Party Warehouse on Bullwhip Effect and Inventory Cost in Supply Chains,” International Journal of Production Economics, Vol 124, No. 2, pp. 395-407.

·         Astanti, R.D. and Luong, H.T., (2009). “A heuristic method for SFI policy with increasing power-form demand pattern,” International Journal of Logistics and SCM Systems, Vol. 3(1), pp. 8-14.

·         Astanti, R.D. and Luong, H.T., (2009). “A heuristic technique for inventory replenishment policy with increasing demand pattern and shortage allowance,” the International Journal of Advanced Manufacturing Technology, Vol. 41(11-12), pp. 1199-1207.

·         Hien Duc, T.T., Luong, H.T., and Kim, Y-D., (2008). “A Measure of Bullwhip Effect in Supply Chain with a Mixed Autoregressive Moving Average Demand Process,” European Journal of Operational Research, Vol.187(1),  pp. 243-256.

·         Hien Duc, T.T., Luong, H.T., and Kim, Y-D., (2008). “A Measure of Bullwhip Effect in Supply Chain with Stochastic Lead Time,” the International Journal of Advanced Manufacturing Technology, Vol.38, pp.1201-1212.

·         Luong, H.T. (2007). “Measure of Bullwhip Effect in Supply Chain with Autoregressive Demand Process,” European Journal of Operational Research Vol. 180 (3), pp. 1086-1097.

·         Luong, H.T., and Phien, N.H., (2007). “Measure of Bullwhip Effect in Supply Chain: The Case of High Order Autoregressive Process,” European Journal of Operational Research, Vol. 183(1), pp. 197-209.

·         Luong, H.T., and Nagarur, N.N., (2005). “Optimal Maintenance Policy and Fund Allocation in Water Distribution Networks,” Journal of Water Resources Planning and Management, Vol. 131(4), pp. 299-306.

·         Luong, H.T., and Fujiwara, O., (2002). “Fund Allocation Model for Pipe Repair Maintenance in Water Distribution Networks,” European Journal of Operational Research, Vol. 136 (2), pp. 403-421. 

·         Luong, H.T., and Nagarur, N.N., (2001). “Optimal Replacement Policy for Single Pipe in Water Distribution Networks,” Water Resources Research, Vol. 37(12), pp. 3285-3294.