Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2016 | 7 | nr 1 | 45--55
Tytuł artykułu

Prioritizing Interdependent Production Processes Using Leontief Input-Output Model

Treść / Zawartość
Warianty tytułu
Języki publikacji
This paper proposes a methodology in identifying key production processes in an interdependent production system. Previous approaches on this domain have drawbacks that may potentially affect the reliability of decision-making. The proposed approach adopts the Leontief input-output model (L-IOM) which was proven successful in analyzing interdependent economic systems. The motivation behind such adoption lies in the strength of L-IOM in providing a rigorous quantitative framework in identifying key components of interdependent systems. In this proposed approach, the consumption and production flows of each process are represented respectively by the material inventory produced by the prior process and the material inventory produced by the current process, both in monetary values. A case study in a furniture production system located in central Philippines was carried out to elucidate the proposed approach. Results of the case were reported in this work. (original abstract)
Opis fizyczny
  • University of San Carlos, Philippines
  • University of San Carlos, Philippines
  • University of San Carlos, Philippines
  • University of San Carlos, Philippines
  • University of San Carlos, Philippines
  • University of San Carlos, Philippines
  • University of San Carlos, Philippines
  • [1] Wood R., Impact of conceptions of ability on self-regulatory mechanisms and complex decision making, Journal of Personality and Social Psychology, 56, 407-415, 1989.
  • [2] Bates K., Amundson S., Schroeder R., Morris W., The crucial interrelationship between manufacturing strategy and organizational culture, Management Science, 41, 1565-1580, 1995.
  • [3] Khurana A., Managing complex production processes, MIT Sloan Management Review, 40 (2), 1999.
  • [4] Brown C., Centra L., Prioritization, Accessed: http: //
  • [5] Abad J. R. A., Philippine Furniture Industry?: Adjustments for the RP-US Trade Agreements, DLSU-AKI Working Paper Series 2008-07.
  • [6] Yang J., Lee H., An AHP decision model for facility location selection, Facilities, 15, 241-254, 1997.
  • [7] Tukundane C., Minnaert A., Zeelen J., Kanyandago P., Building vocational skills for marginalised youth in Uganda: A SWOT analysis of four training programmes, International Journal of Educational Development, 40, 134-144, 2015.
  • [8] Lolli F., Ishizaka A., Gamberini R., Rimini B., Mes-sori M., FlowSort-GDSS - A novel group multi-criteria decision support system for sorting problems with application to FMEA, Expert Systems with Applications, 42 (17-18), 6342-6349, 2014.
  • [9] Liu H., Guo J., Qian D., Xi Y., Comprehensive evaluation of household indirect energy consumption and impacts of alternative energy policies in China by input-output analysis, Energy Policy, 37 (8), 3194-3204, 2009.
  • [10] Leontief W., Quantitative input and output relations in the economic system of the United States, The Review of Economics and Statistics, 18 (3), 105125.1936.
  • [11] Miller R., Blair P., Input-Output Analysis: Foundations and Extensions, New York, NY: Cambridge University Press, 2009.
  • [12] Hayes R., Wheelwright S., Restoring our Competitive Edge: Competing Through Manufacturing, New York, NY: John Wiley & Sons, 1984.
  • [13] Saaty T. The Analytic Hierarchy Process: Planning, Priority Setting, Resource Allocation, California: McGraw-Hill, 1980.
  • [14] Jovanovic B., Filipovic J., Bakić V., Prioritization of manufacturing sectors in Serbia for energy management improvement - AHP method. Energy Conversion and Management, 98, 225- 235, 2015.
  • [15] Ocampo L., Clark E., An AHP-MOLP approach on prioritizing competitive strategies towards sustainable business, International Journal of Industrial Engineering and Management, 5 (2), 95-106, 2014.
  • [16] Lewis W., Pun K., Lalla, T, An AHP-based study of TQM benefits in ISO 9001 certified SMEs in Trinidad and Tobago, The TQM Magazine, 558572, 2005.
  • [17] Mariajayaprakash A., Senthilvelan T., Gnanadass R., Optimization of process parameters through fuzzy logic and genetic algorithm - A case study in a process industry. Applied Soft Computing, 30, 94103, 2015.
  • [18] Resurreccion J., Santos J., Stochastic modeling of manufacturing-based interdependent inventory for formulating sector prioritization strategies in reinforcing disaster preparedness, In: IEEE Systems and Information Design Symposium (SIEDS), 134-139, 2012.
  • [19] Merciai S., Heijungs R., Balance issues in monetary input-output tables, Ecological Economics, 102, 6974, 2014.
  • [20] Dietzenbacher E., Waste treatment in physical input-output analysis, Ecological Economics, 55 (1), 11-23, 2005.
  • [21] Hoekstra R., van den Bergh J., Constructing physical input-output tables for environmental modeling and accounting: Framework and illustrations, Ecological Economics, 59 (3), 375-393, 2006.
  • [22] Weisz H., Working Papers in Economics, 2004(0422), 2005.
  • [23] Lin X., Polenske K., Input-output modeling of production processes for business management, Structural Change and Economic Dynamics, 9 (2), 205226, 1998.
  • [24] Cui L., Peng P., Zhu L., Embodied energy, export policy adjustment and China's sustainable development: A multi-regional input-output analysis, Energy, 82, 457-467, 2015.
  • [25] Wu R., Chen C., On the application of input-output analysis to energy issues, Energy Economics, 12 (1), 71-76, 1990.
  • [26] Mu T., Xia Q., Kang C., Input-output table of electricity demand and its application, Energy, 35 (1), 326-331, 2010.
  • [27] Yuan C., Liu S., Xie, N., The impact on Chinese economic growth and energy consumption of the Global Financial Crisis?: An input-output analysis, Energy, 35 (4), 1805-1812, 2010.
  • [28] Llop M., Economic impact of alternative water policy scenarios in the Spanish production system: An input- output analysis, Ecological Economics, 68 (12), 288-294, 2008.
  • [29] Llop M., Water reallocation in the input-output model, Ecological Economics, 86, 21-27, 2013.
  • [30] Shi C., Zhan J., An input-output table based analysis on the virtual water by sectors with the five northwest provinces in China, Physics and Chemistry of the Earth, 79-82, 47-53, 2015.
  • [31] Stilwell L., Minnitt R., Monson T., Kuhn G., An input-output analysis of the impact of mining on the South African economy, Resources Policy, 26 (1), 17-30, 2000.
  • [32] Lei T., Liangyu W., Rijia D., Lijia L., Study on the dynamic input-output model with coal mine safety, Procedia Engineering, 26, 1997-2002, 2011.
  • [33] Chen G., Zhang B., Greenhouse gas emissions in China 2007: Inventory and input-output analysis, Energy Policy, 38 (10), 6180-6193, 2010.
  • [34] Beylot A., Villeneuve J., Assessing the national economic importance of metals: An input-output approach to the case of copper in France, Resources Policy, 44, 161-165, 2015.
  • [35] Chang Y., Shin S., Lee P., Economic impact of port sectors on South African economy: An input-output analysis, Transport Policy, 35, 333-340, 2014.
  • [36] Correa H., Correa V., An application of input-output analysis to the administration of a library, Library & Information Science Research, 18 (4), 343-356, 1996.
Typ dokumentu
Identyfikator YADDA

Zgłoszenie zostało wysłane

Zgłoszenie zostało wysłane

Musisz być zalogowany aby pisać komentarze.
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.