隨著LED產業蓬勃發展，未來中國可望為全球LED照明最大市場，且LED看板目前是中國最成熟的LED應用之一，由於進入門檻低，全中國約有數千家公司投入LED的領域中。但在不斷地建廠、擴廠的同時，也導致全球LED產業供過於求的現象，當地廠商不斷以降價搶單，也使中國LED商機看似前景亮麗，但廠商卻還沒吃到商機，就先殺價、倒閉。由於LED供過於求的市場並不只影響中國，連帶著台灣多家LED廠商也處於虧損狀態，因此本文將探討在當前環境如此不利的情況下，台灣廠商對供應鏈內外部之需求該如何抉擇。
模型將以高科技產業中常見的多階段、多廠區之供應鏈網路問題，並於前人所作之基礎模型加以延伸，並不局限於供應鏈內部之需求訂單(晶粒之一般性與策略性訂單)，也將對手外包之磊晶片需求訂單(磊晶片之一般性與策略性訂單)考慮進來，期望能於經濟不濟之環境中改善企業虧損之情況。而其研究模型最主要目的為，加入新的銷售路徑並產生供應鏈策略性規劃產能應用之決策準則，以供管理決策者參考。

With the rapid development of Light Emitting Diode (LED) industry, China is expected to be the world's largest LED lighting market. As the China LED industry low barriers to entry and the LED billboard is one of the most mature applications, there are thousands of companies to enter the field. But the LED industry to promote fast cause global LED industry oversupply, local manufacturers continue to reduce prices to snatch orders, which makes China's LED market prospects look bright, but the manufacturer has yet to seize business opportunities, they begin to reduce the price and collapse. LED market oversupply does not only affect China, even with many Taiwan's manufacturers suffer losses. Therefore, this research focuses on exploring the issue of Taiwanese manufacturers how to choose the internal and external orders in the current challenging supply chain environment.
The research model uses the previous LED supply chain base model to be extended, and the model situation is common in high-tech industry, multi-stage, multi-plant supply chain network problem. It is not limited to the demand within the supply chain orders (chip of general and strategic customer orders), but also taken into the wafers orders of opponent's outsourcing (wafer of general and strategic customer orders).The main purpose of the research model is adding new sales paths and generating decision criteria of strategic capacity planning to apply for management decision makers.

英文文獻
Archimède, B., Charbonnaud, P.& Mercier, N., “Robustness evaluation of multisitedistributedschedule with perturbedvirtual jobshops”.Production Planning & Control 14: 55-67, 2003.
Bermon, S.&Hood, S.J., “Capacity optimization planning system(CAPS)”.Interfaces 29(5): 31-50, 1999.
Boulaksil,Y.,Grunow,M.&Fransoo, J.C., “Capacity flexibility allocation in an outsourced supply chain with reservation”.International Journal of Production Economics 129(1): 111-118, 2011.
Chen, J.C., Chen, C.-W., Lin, C.J.&Rau, H., “Capacity planning with capability for multiple semiconductor manufacturing fabs”.Computers & Industrial Engineering 48(4): 709-732, 2005.
Chien, C.-F., Wu, C.-H.&Chiang, Y.-S., “Coordinated capacity migration and expansion planning for semiconductor manufacturing under demand uncertainties”.International Journal of Production Economics 135(2): 860-869, 2012.
Christie, R.M.E. & Wu, S.D., “Semiconductor capacity planning: Stochastic modeling and computational studies”. IIE Transactions 34(2): 131–143, 2002.
Cochran, J.K.&Uribe, A.M., “A set covering formulation for agile capacity planning within supply chains”.International Journal of Production Economics 95(2): 139-149, 2005.
Geng,N.,Jiang,Z.&Chen, F., “Stochastic programming based capacity planning for semiconductor wafer fab with uncertain demand and capacity”.European Journal of Operational Research 198(3): 899-908, 2009.

Karabuk, S.&Wu, S.D., “Coordinating strategic capacity planning in the semiconductor industry”.Operations Research 51(6): 839–849, 2003.
Korpela, J., Kyläheiko, K., Lehmusvaara, A.&Tuominen, M., “An analytic approach to production capacity allocation and supply chain design”.International Journal of Production Economics 78(2): 187-195, 2002.
Lee, Y.H., “Supply Chain Model for the Semiconductor Industry of Global Market”.Journal of Systems Integration 10: 189-206, 2001.
Li, H., Hendry, L.& Teunter, R., “A strategic capacity allocation model for a complex supply chain: Formulation and solution approach comparison”.International Journal of Production Economics 121(2): 505-518, 2009.
Ovacik, I.M. & Weng, W., “A framework for Supply chain management in Semiconductor Manufacturing Industry”.IEEE/CPMT International Electronics Manufacturing Technology Symposium, 1995.
Rastogi, A.P., Fowler, J.W., Carlyle, W. M., Araz, O.M., Maltz, A.&Büke, B., “Supply network capacity planning for semiconductor manufacturing with uncertain demand and correlation in demand considerations”. International Journal of Production Economics134(2): 322-332, 2011.
Sinha,S.&Sarmah,S.P., “Supply-chain coordination model with insufficient production capacity and option for outsourcing”.Mathematical and Computer Modelling 46(11-12): 1442-1452, 2007.
Wang, K.-J., Wang, S.-M.&Yang, S.-J., “A resource portfolio model for equipment investment and allocation of semiconductor testing industry”.European Journal of Operational Research 179(2): 390–403, 2007.

中文文獻
蘇思潔，「LED產業供應鏈之策略性規劃」，國立中央大學，碩士論文，2012年。

網路資料庫
iContemplate，www.icontemplate.com/
IEK產業情報網，http://ieknet.iek.org.tw/index.jsp
LED inside網站，http://www.ledinside.com.tw/
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行政院環境保護署，http://www.epa.gov.tw/
材料世界網，www.materialsnet.com.tw
經濟部能源局，http://web3.moeaboe.gov.tw/ECW/populace/home/Home.aspx
台灣區電機電子工業同業公會，http://www.teema.org.tw/index.aspx