PENAMBAHBAIKAN PRESTASI FLEKSIBILITI DAN KECEKAPAN MASA BAGI SYARIKAT PEMBUATAN: SATU KAJIAN SIMULASIPENAMBAHBAIKAN PRESTASI FLEKSIBILITI DAN KECEKAPAN MASA BAGI SYARIKAT PEMBUATAN: SATU KAJIAN SIMULASI

Authors

  • Mohd Nizam Ab Rahman Universiti Kebangsaan Malaysia
  • Wan Hasrulnizzam Wan Mahmood Universiti Teknikal Malaysia Melaka
  • Baba Md Deros Universiti Kebangsaan Malaysia

DOI:

https://doi.org/10.11113/jt.v62.1177

Keywords:

Fleksibiliti, Masa, Simulasi, Pembuatan aero komposit, Produktiviti

Abstract

Kertas kerja ini merupakan satu laporan kajian simulasi yang dijalankan untuk menambahbaik prestasi fleksibiliti dan kecekapan masa bagi syarikat pembuatan. Sebuah syarikat pembuatan aero komposit dipilih sebagai syarikat kajian kes. Daripada dua analisis simulasi yang menggunakan perisian ARENA, didapati kedua-dua prestasi iaitu fleksibiliti dan kecekapan masa berpotensi meningkatkan produktiviti serta mengurangkan kos. Ia juga membuktikan kecekapan pengurusan sumber secara fleksibel termasuk logistik dapat membantu meningkatkan penambahbaikan produktiviti syarikat. Kajian ini mendapati simulasi berkomputer dapat memberikan individu atau kumpulan kerja untuk menilai alternatif penambahbaikan secara lebih efektif.

Author Biographies

  • Mohd Nizam Ab Rahman, Universiti Kebangsaan Malaysia

    Assoc. Prof.

    Faculty of Engineering and Bulit Environment,

    Universiti Kebangsaan Malaysia

  • Wan Hasrulnizzam Wan Mahmood, Universiti Teknikal Malaysia Melaka
    Lecturer, Faculty of Manufacturing Engineering, UTeM
  • Baba Md Deros, Universiti Kebangsaan Malaysia

    Professor,

    Faculty of Engineering and Built Environment,

    Universiti Kebangsaan Malaysia

References

Bond, T.C. 1999. The role of performance measurement in continuous improvement. International Journal of Operations and Production Management 19(12):1318–1334.

Hervani, A.A., Helms, M.M. & Sarkis, J. 2005. Performance measurement for green supply chain management. Benchmarking: An International Journal 12(4): 330-353.

Neely, A., Gregory, M. & Platts, K. 2005. Performance measurement system design: a literature review and research agenda. International Journal of Operations and Production Management 25(12): 1228–1263.

Muhamad, R.M. 1996. The application of quality of function deployment principles in manufacturing system design. Tesis Ph.D. University of Liverpool.

Beamon, B.M. 1999. Designing the green supply green. Logistics Information Management 12(4): 332-342.

Gunasekaran, A., Patel, C. & Tirtiroglu, E. 2001. Performance measures and metrics in a supply chain. International Journal of Operations and Production Management 21(1/2):71–87.

Gunasekaran, A., Patel, C., & McCaughey, R.E. 2004. Framework for supply chain performance measurement. International Journal of Production Economics 87: 333–347.

Zhu, Q. & Sarkis, J. 2004. Relationships between operational practices and performance among early adopters of green supply chain management practices in Chinese manufacturing enterprises. Journal of Operations Management 22: 265-289.

Shuwang, W. Lei, Z., Zhifeng, L., Guang, L. & Zhang, H.C. 2005. Study on the performance assessment of green supply chain. Proceedings of the International Conference on Systems, Manufacturing and Cybernetics 1: 942-947.

Zhu, Q., Sarkis, J. & Geng, Y. 2005. Green supply chain management in China: pressures, practices and performance. International Journal of Operations and Production Management 25(5): 449-468.

Zhu, Q., Sarkis, J. & Lai, K. 2007a. Green supply chain management: pressures, practices and performance within the Chinese automobile industry. Journal of Cleaner Production 15: 1041-1052.

Zhu, Q., Sarkis, J. & Lai, K. 2007b. Initiatives and outcomes of green supply chain management implementation by Chinese manufacturers. Journal of Environmental Management 85: 179-189.

Zhu, Q., Sarkis, J. & Lai, K. 2008a. Confirmation of a measurement model for green supply chain management practices implementation. International Journal of Production Economics 111: 261-273.

Zhu, Q., Geng, Y., Fujita, T. & Hashimoto, S. 2010. Green supply chain management in leading manufacturers: case studies in Japanese large companies. Management Research Review 33(4): 380-392.

Jun, X. 2009. Model of cluster green supply chain performance evaluation based on circular economy. Proceedings of the 2nd IEEE International Conference on intelligent computation technology and automation, hlm. 941-944.

Chiang, S-F., Wei, C-C., Chiang, T-H. & Chen, W-L. 2010. How can electronics industries become green manufacturers in Taiwan and Japan. Clean Technology Environment Policy. Springer-Verlag.

Johansson, E., Bellgran, M., & Johansson, M.I. 2006. Evaluation of materials supply systems during product development projects. International Journal of Production Research 44: 903-917.

Vachon, S. & Klassen, R.D. 2008. Environmental management and manufacturing performance: the role of collaboration in the supply chain. International Journal of Production Economics 111: 299-315.

Barker, R. 1994. The design of lean manufacturing systems using time based analysis. International Journal of Operations & Production Management 14: 86-96.

Hines, P. 1999.Value stream management: next frontier in supply chain. Logistics Focus 1(3): 36-39.

Lamming, R., Johnsen, T., Zheng, J., & Harland, C. 2000. An initial classification of supply networks. International Journal of Operations and Production Management 20: 675-691.

Leitch, R.A. 2001. Effect of stochasticity, capacity and lead time cost drivers on WIP and throughput in a pull production environment. Management Accounting Research 12:167-196.

Emiliani, M.L. & Stec, D.J. 2004. Aerospace parts suppliers’ reaction to online reverse auctions. Supply Chain Management: An International Journal 9(2):139-153.

Abdulmalek, F.A. & Rajgopal, J. 2007. Analysing the benefits of lean manufacturing and value stream mapping via simulation: a process sector case study. International Journal of Production Economics 107(1): 223-236.

Wader, M. 2005. Lean Tools: A pocket Guide To Implementing Lean Practices. Madras: Productivity & Quality Publishing Private limited.

Barners, R. M. 1980. Motion and Time Study-Design and Measurement of Work. Edisi ke-7. Canada: John Wiley & Sons.

Chan, F.T.S. 2003. Performance measurement in a supply chain. International Journal of Advanced Manufacturing Technology 21: 534–548.

Monden, Y. 1983. Toyota Production Systems, Institute of Industrial Engineers, Atlanta, GA.: Industrial Engineering and Management Press.

Liu, H., Wang, H. & Yang, J. 2005. Dynamic stability analysis of an inventory control system. Advances in System Science and Applications 5(3): 359-367.

Cagliano, R., Caniata, F. & Spina, G. 2004. Lean, agile and traditional supply: how do they impact manufacturing performance? Journal of Purchasing & Supply Management 10: 151-164.

Cagliano, R., Caniato, F., & Spina, G., 2006. The linkage between supply chain integration and manufacturing improvement programmes. International Journal of Operations and Production Management 26 (3): 282–299.

Vastag, G.Y. & Whybark, D.C., 2005. Inventory management: is there a knock-on effect? International Journal of Production Economics 93-94: 129–138.

Davies, A.J., & Kochbar, A.K. 2002. Manufacturing best practice and performance studies: a critique. International Journal of Operations and Production Management 22 (3): 289–305.

Van-Hoek, R.I. 1999. From reverse logistics to green supply chain. Supply Chain Management: An International Journal 4(3): 129-134.

Schonsleben, P. 2004. Integral Logistics Management: Planning and Control of Comprehensive Supply Chains. Boca Raton, FL: St Lucie Press.

Tsoulfas, G.T. & Pappis, C.P. 2006. Environmental principles applicable to supply chains design and operation. Journal of Cleaner Production 14: 1593-1602.

Chang, S.-C., Yang, C.-L., Cheng, H.-C., & Sheu, C., 2003. Manufacturing flexibility and business strategy: an empirical study of small and medium sized ï¬rms. International Journal of Production Economics 83 (1): 13–26.

Morgan, C. 2004. Structure, speed and salience: performance measurement in the supply chain. Business Process Management Journal 10(5): 522–536.

Chan, F.T.S. & Qi, H.J. 2003. An innovative performance measurement method for supply chain management. Supply Chain Management: An International Journal 8(4): 209–23.

Bhagwat, M. & Sharma, M.K. 2007. Performance measurement of supply chain management: a balanced scorecard approach. Computers and Industrial Engineering 53: 43–62.

Avittathur, B., & Swamidass, P.M. 2007. Matching plant flexibility and supplier flexibility: lessons from small suppliers of US manufacturing plants in India. Journal of Operations Management 25 (3): 717–735.

Badri, M.A., Davis, D. & Davis, D., 2000. Operations strategy, environmental uncertainty and performance: a path analytic model of industries in developing countries. Omega 28(2): 155–173.

Kelton, W. D., Sadowski, R. P. & Sturrock, D. T. 2007. Simulation with Arena. (Edisi Ke-4). New York: McGraw Hill Higher Education.

Khan, R.M.R. 1999. Simulation modeling of a garment production system using a spreadsheet to minimize production cost. International Journal of Clothing Science and Technology 11(5): 287 – 299.

Tannock, J., Cao, B., Farr, R., & Byrne, M. 2007. Data-driven simulation of the supply chain –insights from the aerospace sector. International Journal Of Production Economics 110: 70-84.

Kumar, S. & Phrommathed, P. 2006. Improving a manufacturing process by mapping and simulation of critical operations. Journal Of Manufacturing Technology Management 17(1): 104-132.

Wassim Masmoudi, Hedi Chtourou & Aref Y. Maalej. 2006. A Simulation-expert-system-based approach for machine sizing of production systems. Journal of Manufacturing Technology Management. 17(2): 187-198.

Ho, S.K.M. 1999. Japanese 5-S-where TQM begins. TQM Magazine 11: 311-320.

Greasley, A. 2008. Using simulation to assess the introduction of technology in a continuous operations process. Journal of Manufacturing Technology Management 19(8): 979-984.

Jansen, D. R., Weert, A. V., Beulens, A. J. M., & Huirne, R. B. M. 2001. Simulation model of multi-compartment distribution in the catering supply chain. European Journal Of Operational Research 133: 210-224.

Downloads

Published

2013-05-27

Issue

Section

Science and Engineering

How to Cite

PENAMBAHBAIKAN PRESTASI FLEKSIBILITI DAN KECEKAPAN MASA BAGI SYARIKAT PEMBUATAN: SATU KAJIAN SIMULASIPENAMBAHBAIKAN PRESTASI FLEKSIBILITI DAN KECEKAPAN MASA BAGI SYARIKAT PEMBUATAN: SATU KAJIAN SIMULASI. (2013). Jurnal Teknologi (Sciences & Engineering), 62(1). https://doi.org/10.11113/jt.v62.1177