... 39 2 .11 .1 First stage: Voice of customer (VOC) 40 2 .11 .2 Second stage: Competitive analysis 42 2 .11 .3 Third stage: Voice of the organization 43 2 .11 .4 Fourth stage: ... Figure 2 -10 Supply chain strategies, (Naylor et al., 19 99) 34 Figure 2 -11 Sequential block diagram of QFD (Han et al., 20 01) 40 Figure 2 -12 Kano model analyses (Han et al., 20 01) 41 Figure ... 1.1 INTRODUCTION 1. 2 NEED FOR THE CHANGE 1.3 INTRODUCTION TO THE BUSINESS WORLD 1. 4 SUPPLY CHAINS AND BUSINESS MODELS 1. 5 ROLE OF A BUSINESS MODEL 1. 6...
... Seung-Lae Kim and Khalid Habib Mokhashi 13 7 Chapter 11 Inter-Organizational Collaboration in Dynamic, Short-Term Supply Chains 15 7 Adrian Tan and Hamid Noori Chapter 12 Advanced Supply Chain Planning ... investigated in Chapter 10 by Seung-Lae Kim and Khalid Habib Mokhashi Inter-organizational collaboration issues are addressed by Adrian Tan and Hamid Noori in Chapter 11 , while Chapter 12 presents X Preface ... al., 19 91; Macduffie & Helper, 19 97; Conti et al., 2006) since it produces much waste “Waste” is defined as anything that interferes with the smooth flow of production (Macduffie & Helper, 19 97)...
... data shows, firms with less than 20 employees ( 41. 5%), 21 to 50 employees (15 .1% ), 51 to 10 0 employees (16 .0%), 10 1 to 500 employees (13 .2%) and 14 .2% for firm which has more than 500 employees ... for more than 15 years ( 51. 9%), while those firms involved for less than years is 11 .3% Those firms established for to 10 years ( 21. 7%) and 15 .1% of the firms are between 11 to 15 years involvement ... the Fvalue of 21. 0 31 was significant at the 0.0 01 level Thus, information flow (β = 3 71; p
... (B .1) 4: If L1 > L2, L 01 < L02, and L1 + L 01 > L2 + L02, then P12 = 5: If L1 < L2, L 01 > L02, and L1 + L 01 > L2 + L02, then P12 =Gs+mQ(L1 + L 01 – L2) 6: If L1 < L2, L 01 > L02, and L1 + L 01 < ... j = 1, 2, and Pij + Pji = 1) 1: If L1 > L2 and L 01 > L02, then P12 = 2: If L1 < L2 and L 01 < L02, then P12 = 3: If L1 > L2, L 01 < L02, and L1 + L 01 < L2 + L02, then P12 =Gs+mQ(L2 + L02 - L1), ... computational procedure is: S1 ( S 1) S1 1 ( S ) (1 G S ( Li0 )) ( S1 (0) S1 1 (0)), ( S ) G S ( Li0 ) Li0 G S 1 ( Li0 ) S0 Li (A .10 ) (A .11 ) and, The expected total...
... It] *10 0) for the time bucket of one day and a simulation horizon of 18 1 days (i.e t = 1, 2, , 18 1 days) As one can see, inventory perturbations were introduced at the sawing agent level every 14 ... Spectrum, Vol.34, No.3, pp 16 -18 Tweedale, J (2007) Innovations in multi-agent systems Journal of Network and Computer Applications, Vol.30, pp 10 89 -11 15 Van Eck, M (2 003) Advanced planning and ... Management & Data Systems, Vol .10 7, No.8, pp 12 12 -12 26 Martel, A & Vieira, D.R (2008) Análise e projetos de redes logísticas, São Paulo, Saraiva Matsumoto, M & Nishimura, T (19 98) Mersenne Twister:...
... Decision Support Systems, Vol 49 Iss: 3, pp. 318 – 327, 2 010 14 Using Web Technologies for Supply Chain Management Mărincaş Delia Adriana1 and Voicilă Cristian2 1Babeş-Bolyai University, 2IT Quest, Romania ... Process Management Journal, Vol 15 Iss: 5, pp.792 – 815 , 2009 Mentzer, J T et al Defining supply chain management Journal of Business Logistics, v 22, n 2, p 1- 25, 20 01 Poirier, C C.; Quinn, F J ... supply chain enviroment International Journal of Operations & Production Management, v 21, n 1/ 2, p 71- 87, 20 01 Lahti, M.; Shamsuzzoha, A H M.; Helo, P Developing a maturity model for Supply Chain...
... Supply Chain Management and Multi agent Systems: An Overview ,15 .07.2 010 , Available from www.citeseerx.ist.psu.edu Wikipedia, 01/ 03/ 2 011 , Available from http://en.wikipedia.org/wiki/Cloud_computing ... Practice Singh, A (March, 2 011 ), Cloud Computing for Supply Chain Solutions The case for leveraging the Cloud to run your supply chain, in Supply&Demand Chain, 20 .03. 2 011 , Available from http://www.sdcexec.com/publication/arti ... Chain, 20 .03. 2 011 , Available from http://www.sdcexec.com/publication/arti cle.jsp?pubId =1& id =11 986&pageNum =1 ...