The variability factor, (i.e., the variance) of the cumulative production, Σ(t), delivered by a line composed of failure prone machines is studied in the fluid modeling approach. In this context, the evolution of Σ(t) is described by a stochastic differential equation in which the noise source describes the random failures of the machines. We calculate the fluctuations of the production for three different situations, namely for a single non-Markovian machine, for unbuffered networks of Markovian machines and for production dipoles composed of two machines separated by one buffer. The dynamics of the production dipoleis approached via the introduction of a random environment mode. Thanks to this new mode, we can explicitly take into account the buffer induced correlations phenomena which directly influence the variability of Σ(t). The probabilistic properties of the random time needed to complete a batch of fixed size are also explicitly derived.
Titre
On the variance of the production output of transfer lines
Publié dans
IEEE Transactions on Robotics and Automation
Volume
15
Numéro
1
Pages
33-43
Date
1999
ISSN
1042296X
Note
Ecole Polytechnique Fédérale de Lausanne, Switzerland
Cited By (since 1996): 14
Export Date: 6 December 2012
Source: Scopus
CODEN: IRAUE
Language of Original Document: English
Correspondence Address: Ecole Polytechnique Fédérale de LausanneSwitzerland
References: Dallery, Y., Gershwin, S.B., Manufacturing flow line systems. a review of models and analytical results (1992) Queueing Syst.: Theory Appl., 12, pp. 3-94; Miltenburg, G., Variance of the number of units produced on a transfer line with buffer inventories during a period of length T (1987) Naval Res. Log., 34, pp. 811-822; Carrascosa, M., (1995) Variance of the Output in a Deterministic Two-machine Line, , M.S. thesis, Mass. Inst. Technol., Cambridge; Gerschwin, S.B., Variance of the output of a tandem production system (1992) Proc. 2nd Int. Workshop, , Triangle Park, NC; Hendricks, K., The output process of serial production lines of exponential machines with finite buffers (1992) Oper. Res, 40, pp. 1139-1147; Pattipati, K.R., Mallubhatla, R., Viswanadham, N., Discrete-time Markov-Reward Models of production systems (1995) Discrete Event Systems, Manufacturing Systems, and Communication Networks, 73. , P. R. Kumar and P. P. Varaiya, Eds. New York: Springer-Verlag; Tan, B., Variance of the throughput of an N-station production lines with no intermediste buffers and time dependent failures (1997) Euro. J. Oper. Res., 101, pp. 560-576; Hongler, M.-O., Salama, Y., Versus discrete flow of parts in a production dipole. Exact transient analysis (1995) Proc. Conf. Emerging Technol. Factory Automat. (EFTA95), , EFTA, 1995, Paris, France, Oct; Takacs, L., On certain sojourn time problems in the theory of stochastic processes (1957) Acta Math. Acad. Sci. Hung., 8, pp. 169-191; Seshardi, V., (1993) The Inverse Gaussian Distribution, , Oxford, U.K.: Clarendon Press; Pinsky, M.A., (1991) Lectures on Random Evolution, , Cleveland, OH: World Scientific; Dubois, D., Forestier, J.P., Productivité et en-cours moyens d'un ensemble de deux machines séparées par une zone de stockage (1981) R.A.I.R.O. Autom. Syst. Anal. Contr., 16, pp. 105-132; Coillard, P., Proth, J.M., Sur l'Effet de l'Adjonction de stocks tampon dans une fabrication en ligne (1983) Rev. Belge de Stat. Inf. et de R.O., 24, pp. 1-23; Horsthemke, W., Lefever, R., (1984) Noise-Induced Phase Transitions. Theory and Applications in Physics, Biology and Chemistry, , New York: Springer, ch. 9; Terracol, C., David, R., Performance d'une ligne composée de machines et de stocks intermédiaires (1987) APII, 21, p. 239
Date de création de la notice
2013-01-07
