Sage Journals: Discover world-class research

Abstract

In the last few years, firms’ efforts have been directed towards improvement in the manufacturing cycle, lead times reduction and quality assurance, due to the ever-increasing time-to-market and quality requirements. In this context to achieve better results in terms of shop floor scheduling and lead time reduction, many scheduling approaches have been developed, but most of these fall short of achieving good results because they do not identify clearly where and how much inventory should be employed (e.g. Davis proposed a heuristic for determining work in process inventories in a flow line). This paper deals with problems of work-in-progress (WIP) inventory management, describing an approach based on the combinatorial problem related to WIP size and location on the shop floor, which is a function of buffer sizes in each operation of the production process. The proposed model has been tested in an aeronautical firm where a relevant growth in the output rate level has been achieved using four WIP buffers with a total inventory of 50 batches.

Keywords

machine buffer sizing constraint principles tabu search technique inventory management

Get full access to this article

View all access options for this article.

References

Atwater

J. B.

The impact of protective capacity on the output of a typical unblocked flow shop. PhD dissertation, University of Georgia, Athens, Georgia, 1991.

APICS Dictionary, 7th edition, 1992 (American Production and Inventory Control Society, Falls Church, Virginia).

Ghosh

Gagnon

A comprehensive literature review and hierarchical taxonomy for the design and balancing of assembly lines. Working paper 86-4, The College of Administrative Science, The Ohio State University, Columbus, Ohio, 1986.

Lenz

J. E.

Flexible Manufacturing: Benefits for the Low-Inventory Factory, 1989 (Marcel Dekker, New York).

Goldratt

The unbalanced plant. In Proceedings of the International Conference of the American Production and Inventory Control Society, 1981, pp. 195–199.

Goldratt

Computerized shop floor scheduling. Int. J. Prod. Res., 1987, 26, 443–445.

Goldratt

How complex are our systems?

Theory Constraints J., 1989, 5, 1–14, 1989.

Patterson

M. C.

The product-mix decision: A comparison of theory of constraints and labor-based management accounting. Prod. Inventory J., 1992, 33, 80–85.

Ronen

Starr

M. K.

Synchronized manufacturing as in OPT: From practice to theory. Computer Ind. Engng, 1990, 18, 585–600.

10.

Onwubolu

G. C.

Mutingi

A genetic algorithm approach to the theory of constraints product mix problems. Prod. Planning Control, 2001, 12, 21–27.

11.

Dell'Amico

Trubian

Applying tabu search to the job shop scheduling problems. Ann. Ops Res., 1993, 22, 15–24.

12.

Conway

Maxwell

McClain

J. O.

Thomas

L. J.

The role of work-in-process inventory in serial production lines. Ops Res., 1988, 36 (2), 229–241.

13.

Hendricks

K. B.

McClain

J. O.

The output processes of serial production lines of general machines with finite buffers. Managmt Sci., 1993, 39 (2), 47–61.

14.

Lambrecht

Segaert

Buffer stock allocation in serial and assembly type of production lines. Int. J. Ops Prod. Managmt, 1990, 10 (2), 47–61.

15.

Balas

Vazacopoulos

Guided local search with shifting bottleneck for job shop scheduling. Managmt Sci., 1998, 4, 262–275.

16.

Brandimarte

Routing and scheduling in a flexible job shop by tabu search. Ann. Ops Res., 1993, 22, 158–183.

17.

Brucker

Schlie

Job-shop scheduling with multi-purpose machines. Computing, 1990, 45, 369–375.

18.

Buzacott

J. A.

Automatic transfer lines with buffer stocks. Int. J. Prod. Res., 1967, 5, 183–200.

19.

Dauzere-Peres

Paulli

An integrated approach for modeling and solving the general multiprocessor job-shop scheduling problem using tabu search. Ann. Ops Res., 1997, 70, 281–306.

20.

Dauzere-Peres

Lasserre

J. B.

Multi-resource shop scheduling with resource flexibility. Eur. J. Opl Res., 1998, 107, 289–305.

21.

Davis

K. R.

Taylor

B. W.

A heuristic procedure for detrmining in process inventories. Decision Sci., 1978, 9 (3), 452–466.

22.

Glover

Tabu search. Part I. Ops Res. Soc. Am. J. Computing, 1989, 1, 190–206.

23.

Glover

Tabu search. Part II. Ops Res. Soc. Am. J. Computing, 1990, 2, 4–32.

24.

Glover

Laguna

Tabu Search, 1997 (Kluwer, Dordrecht).

25.

Glover

Taillard

Laguna

De Werra

Tabu search. Ann. Ops Res., 1993, 41, 3–28.

26.

Mastrolilli

Gambardella

L. M.

Effective neighborhood functions for the flexible job shop problem. J. Scheduling, 2000, 3 (1), 3–20.

27.

Norman

B. A.

Scheduling flowshops with finite buffers and sequence dependent setup times. Computers Ind. Engng, 1999, 36, 163–177.

28.

Nowicki

The permutation flowshop with buffers: A tabu search approach. Eur. J. Opl Res., 1999, 116, 205–219.

29.

Nowicki

Czeslaw

The flowshop with parallel machines: A tabu search approach. Eur. J. Opl Res., 1998, 106, 226–253.

30.

Nowicki

Smutnicki

A fast taboo search algorithm for the job shop problem. Managmt Sci., 1996, 42, 797–813.

Machine buffer sizing based on the theory of constraint principles and the tabu search technique

Abstract

Abstract

Keywords

Get full access to this article

References