R. V. Rao, “Decision Making in Manufacturing Environment Using Graph Theory and Fuzzy Multiple Attribute Decision Making Methods,” Springer Series in Advanced Manufacturing, London, Vol. 2, 2013, pp. 1-5.
 P. Chatterjee, V. M. Athawale and S. Chakraborty, “Material Selection Using Complex Proportional Assessment and Evaluation of Mixed Data Methods,” Material and Design, Vol. 32, No. 2, 2011, pp. 851-860.
 J. M. Martel and B. Matarazzo, “Other Outranking Approaches,” In: F. J. Salvatore and G. M. Ehrgott, Eds., Multiple Criteria Decision Analysis: State of the Art Surveys, Springer, New York, 2005, pp. 197-262.
 S. Hajkowicz and A. Higgins, “A Comparison of Multiple Criteria Analysis Techniques for Water Resource Management,” European Journal of Operation Research, Vol. 184, No. 1, 2008, pp. 255-265.
 E. S. Chung and K. S. Lee, “Identification of Spatial Ranking of Hydrological Vulnerability Using Multi-Criteria Decision Making Techniques: Case Study of Korea,” Water Resource Management, Vol. 23, No. 12, 2009, pp. 2395-2416. http://dx.doi.org/10.1007/s11269-008-9387-9
 L. Ustinovichius, E. K. Zavadskas and V. Podvezko, “Application of a Quantitative Multiple Criteria Decision Making (MCDM-1) Approach to the Analysis of Investments in Construction,” Control and Cybernetics, Vol. 36, No. 1, 2007, pp. 251-268.
 T. L. Saaty, “Absolute and Relative Measurement with the AHP. The Most Livable Cities in the United States,” Socio-Economic Planning Sciences, Vol. 20, No. 6, 1986, pp. 327-331.
 H. D. Jee and K. J. Kang, “A Method for Optimal Material Selection Aided with Decision Making Theory,” Materials & Design, Vol. 21, No. 3, 2000, pp. 199-206.
 K. M. Rajan and K. Narasimhan, “An Approach to Selection of Material and Manufacturing Processes for Rocket Motor Cases Using Weighted Performance Index,” Journal of Materials Engineering and Performance, Vol. 11, No. 4, 2002, pp. 444-449.
 N. S. Ermolaeva, M. B. G. Castro and P. V. Kandachar, “Materials Selection for an Automotive Structure by Integrating Structural Optimization with Environmental Impact Assessment,” Materials & Design, Vol. 25, No. 8, 2004, pp. 689-698.
 R. V. Rao and J. P. Davim, “A Decision-Making Framework Model for Material Selection Using a Combined Multiple Attribute Decision-Making Method,” The International Journal of Advanced Manufacturing Technology, Vol. 35, No. 7-8, 2008, pp. 751-760.
 P. Chatterjee, V. M. Athawale and S. Chakraborty, “Selection of Materials Using Compromise Ranking and Outranking Methods,” Materials & Design, Vol. 30, No. 10, 2009, pp. 4043-4053.
 A. Shanian and O. Savadogo, “A Material Selection Model Based on the Concept of Multiple Attribute Decision Making,” Materials & Design, Vol. 27, No. 4, 2006, pp. 329-337.
 B. D. Manshadi, H. Mahmudi, A. Abedian and R. Mahmudi, “A Novel Method for Materials Selection in Mechanical Design: Combination of Non-Linear Linearization and a Modified Digital Logic Method,” Materials & Design, Vol. 28, No. 1, 2007, pp. 8-15.
 I. Ribeiro, P. Pecas, A. Silva and E. Henriques, “Life Cycle Engineering Methodology Applied to Material Selection, a Fender Case Study,” Journal of Cleaner Production, Vol. 16, No. 17, 2008, pp. 1887-1899.
 P. Pecas, I. Ribeiro, A. Silva and E. Henriques, “Comprehensive Approach for Informed Life Cycle-Based Material Selection,” Mater Design, Vol. 43, 2013, pp. 220232.
 D. S. Jung and G. L. Dai, “Manufacture of Composite Screw Rotors for Air Compressors by RTM Process,” Journal of Materials Processing Technology, Vol. 113, No. 1-3, 2001, pp. 196-201.
 W. D. Brouwer, E. C. F. C. Van Herpt and M. Labordus, “Vacuum Injection Molding for Large Structural Applications,” Composites Part-A: Applied Science and Manufacturing, Vol. 34, No. 6, 2003, pp. 551-558.
 K. Han, S. Jiang, C. Zhang and B. Wang, “Flow Modelling and Simulation of SCRIMP for Composites Manufacturing,” Composites Part-A: Applied Science and Manufacturing, Vol. 31, No. 1, 2004, pp. 79-86.
 R. T. Durai Prabhakaran, B. J. C. Babu and V. P. Agrawal, ”Structural Modeling and Analysis of Composite Product System: A Graph Theoretic Approach,” Journal of Composite Materials, Vol. 40, No. 22, 2006, pp. 19872007. http://dx.doi.org/10.1177/0021998306061318
 H. Liu, A. Uhlherr and M. K. Bannister, “Quantitative Structure—Property Relationships for Composites: Prediction of Glass Transition Temperatures for Epoxy Resins,” Polymer, Vol. 45, No. 6, 2004, pp. 2051-2060.
 J. C. Lin, M. H. Nien and F. M. Yu, “Morphological Structure, Processing and Properties of Propylene Polymer Matrix Nanocomposites,” Composite Structures, Vol. 71, No. 1, 2005, pp. 78-82.
 R. T. Durai Prabhakaran, B. J. C. Babu and V. P. Agrawal, “Optimum Selection of a Composite Product System Using AMDM Approach,” Material and Manufacturing Processes, Vol. 21, No. 8, 2006, pp. 883-891.
 P. Danijela, V. Ivana, V. Katarina and T. Dusan, “Application of DEA to the Analysis of AGV Fleet Operations in a Port Container Terminal,” Procedia Social and Behavioural Sciences, Vol. 20, 2011, pp. 816-825.
 P. Ioannou, H. Jula, C. I. Liu, K. Vukadinovic, H. Pourmohammadi and E. Dougherty Jr., “Advanced Material Handling: Automated Guided Vehicles in Agile Ports,” CCDoTT Technical Report, Centre for Advanced Transportation Technologies, University of Southern California, Los Angeles, 2001.
 K. Cullinane and T. F. Wang, “The Efficiency of European Container Ports: Across-Sectional Data Envelopment Analysis,” International Journal of Logistics: Research and Applications, Vol. 9, No. 1, 2006, pp. 19-31. http://dx.doi.org/10.1080/13675560500322417
 I. E. Kaisar, S. Pathomsiri and A. Haghani, “Efficiency Measurement of US Ports Using Data Envelopment Analysis,” National Urban Freight Conference, Long Beach California, 1-3 February 2006, p. 16.
 C. I. Liu, H. Jula, K. Vukadinovic and P. Ioannou, “Automated Guided Vehicle System for Two Container Yard Layouts,” Transportation Research Part C: Emerging Technologies, Vol. 12, No. 5, 2004, pp. 349-368.
 H. Min and B. I. Park, “Evaluating the Inter-Temporal Efficiency Trends of International Container Terminals Using Data Envelopment Analysis,” International Journal of Integrated Supply Management, Vol. 1, No. 3, 2005, pp. 258-277.
 T. Yang and C. Kuo, “A Hierarchical AHP/DEA Methodology for the Facilities Layout Design Problem,” European Journal of Operational Research, Vol. 147, No. 1, 2003, pp. 128-136.
 L. C. Lin and G. P. Sharp, “Quantitative and Qualitative Indices for the Plant Layout Evaluation Problem,” European Journal of Operational Research, Vol. 116, No. 1, 1999, pp. 100-117.
 L. C. Lin and G. P. Sharp, “Application of the Integrated Framework for the Plant Layout Evaluation Problem,” European Journal of Operational Research, Vol. 116, No. 1, 1999, pp. 118-138.
 T. Yang and C. C Hung, “2007. Multi-Attribute Decision Making Methods for Plant Layout Design Problem,” Robotics and Computer Integrated Manufacturing, Vol. 23, No. 1, 2007, pp. 126-137.
 Y. Y. Kuo, T. H. Yang and G. W. Huang, “The Use of Grey Relational Analysis in Solving Multiple Attribute Decision-Making Problems,” Computer & Industrial Engineering, Vol. 55, No. 1, 2008, pp. 80-93.
 Y. T. Ic, “An Experimental Design Approach Using TOPSIS Method for the Selection of Computer-Integrated Manufacturing Technologies,” Robotics and ComputerIntegrated Manufacturing, Vol. 28, No. 2, 2012, pp. 245256. http://dx.doi.org/10.1016/j.rcim.2011.09.005