How to cite this paper
Singh, D & Rao, R. (2011). A hybrid multiple attribute decision making method for solving problems of industrial environment.International Journal of Industrial Engineering Computations , 2(3), 631-644.
Refrences
Bayati, M. R., Shariat, M. H. & Janghorban, K. (2005). Design of chemical composition and optimum working conditions for trivalent black chromium electroplating bath used for solar thermal collectors. Renewable Energy, 30(14), 2163-2178.
Bhangale, P. P., Agrawal, V. P. & Saha, S. K. (2004). Attribute based specification, comparison and selection of a robot. Mechanism and Machine Theory, 39, 1345-1366.
Braglia, M. & Petroni, A. (1999). Evaluating and selecting investments in industrial robots. International Journal of Production Research, 37 (18), 4157-4178.
Busby, C. C. & Creighton, J. A. (1982). Efficient gold and silver electrodes for surface enhancement Raman spectral studies of electrochemical systems: The behaviour of pyridine and naphthalene adsorbed on roughened gold electrodes. Journal of Electroanalytical Chemistry, 140(2), 379-390.
Chatterjee, P., Athawale, V. M. & Chakraborty, S. (2010). Selection of industrial robots using compromise ranking and outranking methods. Robotics and Computer-Integrated Manufacturing, 26(5), 483-489.
Chu, T. C. & Lin, Y. C. (2003). A Fuzzy TOPSIS Method for Robot Selection. International Journal of Advanced Manufacturing Technology, 21, 284-290.
Durney, L. J. (1996). Electroplating engineering hand book. Chapman and Hall, 50-57.
Fisher, T. P. & Fisher, C. (1981). The basic principles of electrophoretic paint deposition and its application to the development of coating systems for metal powders on metal substrates for subsequent diffusion treatment. Surface Technology, 12, 107-126.
Goh, C. H. (1997). Analytic Hierarchy Process for Robot Selection. Journal of Manufacturing System, 16, 381 386.
Inal, O. T. & Torma, A. E. (1979). Growth characteristics of copper of tungsten grown through cementation, vapor deposition and electroplating. Thin Solid Films, 60, 157-174.
Janssen, L. J. J. & Koene, L. (2002). The role of electrochemistry and electrochemical technology in environmental protection. Chemical Engineering Journal, 85, 137-146.
Kanani, N. (2006). Electroplating basic principles, processes and practice. The Netherlands: Elsevier Publications, 1-18.
Karsak, E. E. & Ahiska, S. S. (2005). Practical common weight multi-criteria decision-making approach with an improved discriminating power for technology selection. International Journal of Production Research, 43 (8), 1537-1554.
Karsak, E. E. & Ahiska, S. S. (2008). Improved common weight MCDM model for technology selection. International Journal of Production Research, 46 (24), 6933-6944.
Kim, J. J. & Kim, S. K. (2001). Optimized surface pretreatments for copper electroplating. Applied Surface Science, 183, 311-318.
Kumar, A. & Agrawal, V. P. (2009). Attribute based specification, comparison and selection of electroplating system using MADM approach. Expert Systems with Applications, 36, 10815–10827.
Liang, G. S. & Wang, M. J. J. (1993). A fuzzy multi-criteria decision-making approach for robot selection. Robotics & Computer-Integrated Manufacturing, 10, 267-274.
Little, R. L. (1990). Welding and welding technology. New Delhi: Tata McGraw-Hill.
Lowenheim, F. A. (1978). Electroplating. New York: McGraw-Hill, 1-45.
Muralidharan C., Anantharaman N., Balasubramanian V. & Deshmukh S. G. (1999). Selection of a welding process using analytic hierarchy process. Journal of The Institution of Engineers (India), 80, 51-54.
Mohanty, R. P. & Deshmukh, S. G. (1993). Use of analytic hierarchic process for evaluating sources of supply. International Journal of Physical Distribution and Logistics Management, 23, 22-30.
Rao, R. V. (2007). Decision Making in the Manufacturing Environment Using Graph Theory and Fuzzy Multiple Attribute Decision Making Methods. Springer-Verlag, London.
Ravisankar, V., Balasubramanian, V. & Muralidharan C. (2006). Selection of welding process to fabricate butt joints of high strength aluminium alloys using analytic hierarchic process. Materials and Design, 27, 373-380.
Saaty, T. L. (1980). The analytic hierarchy process. New York: McGraw Hill.
Saaty, T. L. (2000). Fundamentals of decision making and priority theory with AHP. RWS Publications, Pittsburg.
Shih H. S. (2008). Incremental analysis for MCDM with an application to group TOPSIS. European Journal of Operational Research, 186, 720-734.
SIRI board of consultant and engineers, (2004). Modern Technology of electroplating: Anodizing and other surface treatments. Small Industry Research Institute, 9-102.
Sombatsompop, N., Sukeemith, K., Markpin, T., & Tareelap, N. (2004). New experimental apparatus of electro-codeposited system for Ni-WC composite coatings. Materials Science and Engineering A, 381, 175-188.
Wang, Y. M. & Chin, K. S. (2009). A new approach for the selection of advanced manufacturing technologies: DEA with double frontiers. International Journal of Production Research, 47 (23), 6663-6679.
Zhao, L. Tsujimura, Y. & Gen, M. (1996). Genetic Algorithm for Robot Selection and Work Station Assignment Problem. Computers and industrial Engineering, 31, 599-602.
Bhangale, P. P., Agrawal, V. P. & Saha, S. K. (2004). Attribute based specification, comparison and selection of a robot. Mechanism and Machine Theory, 39, 1345-1366.
Braglia, M. & Petroni, A. (1999). Evaluating and selecting investments in industrial robots. International Journal of Production Research, 37 (18), 4157-4178.
Busby, C. C. & Creighton, J. A. (1982). Efficient gold and silver electrodes for surface enhancement Raman spectral studies of electrochemical systems: The behaviour of pyridine and naphthalene adsorbed on roughened gold electrodes. Journal of Electroanalytical Chemistry, 140(2), 379-390.
Chatterjee, P., Athawale, V. M. & Chakraborty, S. (2010). Selection of industrial robots using compromise ranking and outranking methods. Robotics and Computer-Integrated Manufacturing, 26(5), 483-489.
Chu, T. C. & Lin, Y. C. (2003). A Fuzzy TOPSIS Method for Robot Selection. International Journal of Advanced Manufacturing Technology, 21, 284-290.
Durney, L. J. (1996). Electroplating engineering hand book. Chapman and Hall, 50-57.
Fisher, T. P. & Fisher, C. (1981). The basic principles of electrophoretic paint deposition and its application to the development of coating systems for metal powders on metal substrates for subsequent diffusion treatment. Surface Technology, 12, 107-126.
Goh, C. H. (1997). Analytic Hierarchy Process for Robot Selection. Journal of Manufacturing System, 16, 381 386.
Inal, O. T. & Torma, A. E. (1979). Growth characteristics of copper of tungsten grown through cementation, vapor deposition and electroplating. Thin Solid Films, 60, 157-174.
Janssen, L. J. J. & Koene, L. (2002). The role of electrochemistry and electrochemical technology in environmental protection. Chemical Engineering Journal, 85, 137-146.
Kanani, N. (2006). Electroplating basic principles, processes and practice. The Netherlands: Elsevier Publications, 1-18.
Karsak, E. E. & Ahiska, S. S. (2005). Practical common weight multi-criteria decision-making approach with an improved discriminating power for technology selection. International Journal of Production Research, 43 (8), 1537-1554.
Karsak, E. E. & Ahiska, S. S. (2008). Improved common weight MCDM model for technology selection. International Journal of Production Research, 46 (24), 6933-6944.
Kim, J. J. & Kim, S. K. (2001). Optimized surface pretreatments for copper electroplating. Applied Surface Science, 183, 311-318.
Kumar, A. & Agrawal, V. P. (2009). Attribute based specification, comparison and selection of electroplating system using MADM approach. Expert Systems with Applications, 36, 10815–10827.
Liang, G. S. & Wang, M. J. J. (1993). A fuzzy multi-criteria decision-making approach for robot selection. Robotics & Computer-Integrated Manufacturing, 10, 267-274.
Little, R. L. (1990). Welding and welding technology. New Delhi: Tata McGraw-Hill.
Lowenheim, F. A. (1978). Electroplating. New York: McGraw-Hill, 1-45.
Muralidharan C., Anantharaman N., Balasubramanian V. & Deshmukh S. G. (1999). Selection of a welding process using analytic hierarchy process. Journal of The Institution of Engineers (India), 80, 51-54.
Mohanty, R. P. & Deshmukh, S. G. (1993). Use of analytic hierarchic process for evaluating sources of supply. International Journal of Physical Distribution and Logistics Management, 23, 22-30.
Rao, R. V. (2007). Decision Making in the Manufacturing Environment Using Graph Theory and Fuzzy Multiple Attribute Decision Making Methods. Springer-Verlag, London.
Ravisankar, V., Balasubramanian, V. & Muralidharan C. (2006). Selection of welding process to fabricate butt joints of high strength aluminium alloys using analytic hierarchic process. Materials and Design, 27, 373-380.
Saaty, T. L. (1980). The analytic hierarchy process. New York: McGraw Hill.
Saaty, T. L. (2000). Fundamentals of decision making and priority theory with AHP. RWS Publications, Pittsburg.
Shih H. S. (2008). Incremental analysis for MCDM with an application to group TOPSIS. European Journal of Operational Research, 186, 720-734.
SIRI board of consultant and engineers, (2004). Modern Technology of electroplating: Anodizing and other surface treatments. Small Industry Research Institute, 9-102.
Sombatsompop, N., Sukeemith, K., Markpin, T., & Tareelap, N. (2004). New experimental apparatus of electro-codeposited system for Ni-WC composite coatings. Materials Science and Engineering A, 381, 175-188.
Wang, Y. M. & Chin, K. S. (2009). A new approach for the selection of advanced manufacturing technologies: DEA with double frontiers. International Journal of Production Research, 47 (23), 6663-6679.
Zhao, L. Tsujimura, Y. & Gen, M. (1996). Genetic Algorithm for Robot Selection and Work Station Assignment Problem. Computers and industrial Engineering, 31, 599-602.