| dc.identifier.citation | [1] Oral, Muhittin, Cinar, Unver, Chabchoub, Habib, Linking industrial competitiveness and productivity at the firm level, European Journal of Operational Research, 118 (1999) 271-277. [2] Haksever, Lengisz, Render, Barry, Russel, Roberta S., Murdick, Robert G., Service Management and Operations, 2nd ed., Prentice-Hall, Inc., New Jersey, 2000. [3] Tangen, Stefan, Demystifying productivity and Performance, International Journal of Productivity and Performance Management, Vol. 54, No. 1 (2005) 34-46. [4] Hides, Michael Trevor, Davies, John, Jackson, Sue, Implementation of EFQM excellence model self-assessment in the UK higher education sector – lessons learned from other sectors, The TQM Magazine, Vol. 16, No. 3 (2004) 194-201. [5] NG’Wandu, Puis Y., Higher Education in the Twenty-First Century: Vision and Mission, World Conference on Higher Education, UNESCO, Paris, 1998. [6] Lee, Sang M., Clayton, Edward L., A goal programming model for academic resource allocation, Management Science, Vol. 18 (8) (1972) 395–408. [7] Hwarng, H. Brian, Teo, Cyntia, Translating customers’ voices into operations requirements: A QFD application in higher education, International Journal of Quality & Reliability Management, Vol. 18, No. 2 (2001) 195-225. [8] Gates, Susan, Stone, Ann, Understanding Productivity in Higher Education, RAND Institute of Education and Training, 1997. [9] Park, Richard J., Value Engineering: A Plan for Invention, CRC Press LLC, Boca Raton, 1999. [10] Slagmulder, Regine, Bruggeman, Werner, Wassenhove, Luk van, An empirical study of capital budgeting practices for strategic investments in CIM technologies, International Journal of Production Economic, 40 (1995) 121-152. [11] Mustafa, A., Goh, M., Multi-criterion models for higher education administration, International Journal of Management Science, Vol. 24 (22) (1996) 167 – 178. [12] Dufty, Norman F., Some notes on resource allocation in tertiary institutions, The Journal of Educational Administration, Vol. 14, No. 2 (1976) 220-235. [13] Spathis, Charalambos, Ananiadis, John, The accounting system and resource allocation reform in a public university, The International Journal of Educational Management Vol. 18 (3) (2004) 196-204. [14] Shaw, David, Risk adjusted performance measures and capital allocation, Balance Sheet, Vol. 11, No. 1 (2003) 46-61. [15] Ignizio, James P., Cavalier, Tom M., Linear Programming, Prentice-Hall Int. Inc., New Jersey, 1994. [16] Dicdican, Ruth Y., Haimes, Yacov Y., Decision trees to the multiobjective risk impact analysis method, Systems Engineering, Vol. 8, No. 2 (2005) 95-108. [17] Taha, Hamdy A., Operations Research: An Introduction, 7th ed., Pearson Education, Inc., New Jersey, 2003. [18] Lai, Kin Keung, Liu, S.L., Wang, Shouyang, Bid markup selection models by use of multiple criteria, IEEE Transactions on Engineering Management, Vol. 49, No. 2 (2002) 155-160. [19] Erol, Ismail, Ferrel, Jr., William G., A methodology for selection problems with multiple, conflicting objectives and both qualitative and quantitative criteria, International Journal of Production Economics, 86 (2003) 187-199. [20] Tarp, P., Helles, F., Multi-criteria decision-making in forest management planning-an overview, Journal of Forest Economics, Vol. 1, No. 3 (1995) 273-306. [21] Scheubrein, Ralph, Zionts, Stanley, A problem structuring front end for a multiple criteria decision support system, Computers & Operations Research, 33 (2006) 18-31. [22] Shang, Jennifer S., Tjader, Youxu, Ding, Yizhong, A unified framework for multicriteria evalation of transportation projects, IEEE Transactions on Engineering Management, Vol. 51, No. 3 (2004) 300-313. [23] Park, Taeho, Lee, Hochang, Lee, Heeseok, FMS design model with multiple objectives using compromise programming, Int. J. Prod. Res., Vol. 39, No. 15 (2001) 3513-3528. [24] Baykasoglu, A., MOAPPS 1.0: aggregate production planning using the multiple-objective tabu search, Int. J. Prod. Res., Vol. 39, No. 16 (2001) 3685-3702. [25] Dimova, L., Sevastianov, P., Sevastianov, D., MCDM in a fuzzy setting: Investment projects assessment application, International Journal of Production Economics, 100 (2006) 10-29. [26] Kahraman, Cengiz, Cebeci, Ufuk, Ulukan, Ziya, Multi-criteria supplier selection using fuzzy AHP, Logistics Information Management, Vol. 16, No. 6 (2003) 382-394. [27] Çebi, Ferhan, Bayraktar, Demet, An integrated approach for supplier selection, Logistics Information Management, Vol. 16, No. 6 (2003) 395-400. [28] Liao, Zhiying, Rittscher, Jens, A multi-objective supplier selection model under stochastic demand conditions, International Journal of Production Economics, 105 (2007) 150-159. [29] Kumar, Manoj, Vrat, Pret, Shankar, R., Fuzzy goal programming approach for vendor selection problem in a supply chain, Computers & Industrial Engineering, Vol. 46 (2004) 69-85. [30] Parkan, Celik, Wu, Ming-Lu, Decision-making and performance measurement models with applications to robot selection, Computers & Industrial Engineering, Vol. 36 (1999) 503-523. [31] Mikhailov, L., Tsvetinov, P., Evaluation of services using a fuzzy analytic hierarchy process, Applied Soft Computing, 5 (2004) 23-33. [32] Chen, Yuh-Wen, Larbani, Moussa, Two-person zero-sum game approach for fuzzy multiple attribute decision making problems, Fuzzy Sets and System, 157 (2006) 34-51. [33] GEF Council, Performance-Based Framework for Allocation of GEF Resources, Agenda Item 13, 2003. Available at http://www.gefweb.org/Documents/Council_Documents/GEF_C22/C22.11_Final.doc. [34] Hoyt, Jeff E., Performance Funding in Higher Education: Is Outcomes Testing The Answer? April 1999. Available at http://www.uvsc.edu/ir/research/litoutcomes.pdf. [35] Al-Turki, Umar, Duffuaa, Salih, Performance measures for academic departments, The International Journal of Educational Management, Vol. 17 (7) (2003) 330-338. [36] Jongbloed, Ben, Performance-Based Funding in Higher Education: An International Survey, Working Paper No. 35, Centre for The Economic of Education and Training, Monash University, Australia, 2001. [37] Hanoum, Syarifa, Evaluasi Produktivitas Program Studi di Institut Teknologi Sepuluh Nopember (ITS) Surabaya dengan Pendekatan Data Envelopment Analysis, Final Project, Industrial Engineering Dept., Sepuluh Nopember Institute of Tech. (ITS) Surabaya, Surabaya, 2002. [38] Setiawan, Eko, Perencanaan Alokasi Sumber Daya Finansial ke Berbagai Jurusan di Institut Teknologi Sepuluh Nopember (ITS) Surabaya, thesis, Industrial Engineering Dept., Sepuluh Nopember Institute of Technology (ITS) Surabaya, Surabaya, 2004. [39] Setiawan, Eko, Financial resource allocation based on performance and needs (case study: Sepuluh Nopember Institute of Technology (ITS) Surabaya, Seminar Nasional Pascasarjana IV - 2004, Surabaya, Indonesia, August 24 – 25, 2004. [40] Alho, Juha M., Salo, Mikko A., Merit rating and formula-based resource allocation, The International Journal of Educational Management, Vol. 14 (3) (2000) 95-100. [41] Biro Administrasi Perencanaan dan Sistem Informasi, Data ITS 10 Tahun 1993-2002, ITS Surabaya, 2003. [42] Biro Administrasi Perencanaan dan Sistem Informasi, Petunjuk Operasional (PO) Penggunaan Dana Penerimaan Negara Bukan Pajak (PNBP) Tahun 2003-2004, ITS Surabaya, 2003. [43] Biro Administrasi Perencanaan dan Sistem Informasi, Sistem Perencanaan Penyusunan Program dan Penganggaran (SP-4) Tahun 2004, Buku I: karakteristik Umum Institusi, ITS Surabaya, 2003. | in_ID |
