Details

Title

A design of DSS for mass production machining systems

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2009

Volume

vol. 57

Issue

No 3

Authors

Divisions of PAS

Nauki Techniczne

Coverage

265-271

Date

2009

Identifier

DOI: 10.2478/v10175-010-0128-x ; ISSN 2300-1917

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2009; vol. 57; No 3; 265-271

References

Brown J. (2004), Digital Manufacturing. The PLM Approach to better Manufacturing Processes. ; Grieves M. (2005), Product Lifecycle Management: Driving the Next Generation of Lean Thinking. ; Stark J. (2005), Product Lifecycle Management: 21<sup>st</sup> century Paradigm for Product Realisation, Series: Decision Engineering. ; Dolgui A. (2009), Graph approach for optimal design of transfer machine with rotary table, Int. J. Production Research, 47, 2, 321. ; Askin R. (1993), Standridge Modeling and Analysis of Manufacturing Systems. ; Baybars I. (1986), A survey of exact algorithms for the simple assembly line balancing, Management Science, 32, 909. ; Scholl A. (1998), Balancing assembly lines effectively: a computational comparison, Eur. J. Operational Research, 114, 51. ; E-PCSAghezzaf H. (1995), Lagrangean relaxation technique for the general assembly line balancing problem, J. Intelligent Manufacturing, 6, 123. ; F. van Assche (1979), An optimal procedure for the single model deterministic assembly line balancing problems, Eur. J. Operational Research, 3, 2, 142. ; Ugurdag H. (1997), Designing paced assembly lines with fixed number of stations, Eur. J. Operational Research, 102, 488. ; Arcus A. (1966), COMSOAL: A computer method of sequencing operations for assembly lines, Int. J. Production Research, 4, 259. ; Helgeson W. (1961), Assembly line balancing using ranked positional weight technique, J. Industrial Engineering, 12, 394. ; Rekiek B. (2001), A multiple objective grouping genetic algorithm for assembly line design, J. Intelligent Manufacturing, 12, 467. ; Becker C. (2006), A survey on problems and methods in generalized assembly line balancing, Eur. J. Operational Research, 168, 694. ; Erel E. (1998), A survey of the assembly line balancing procedures, Production Planning and Control, 9, 5, 414. ; Ghosh S. (1989), A comprehensive literature review and analysis of the design, balancing and scheduling of assembly lines, Int. J. Production Research, 27, 4, 637. ; Rekiek B. (2002), State of art of assembly lines design optimization, Annual Reviews in Control, 26, 2, 163. ; Gadidov R. (2000), A cutting plane approach for the single-product assembly system design problem, Int. J. Production Research, 38, 8, 1731. ; Bukchin J. (2000), Design of flexible assembly line to minimize equipment cost, IIE Transactions, 32, 585. ; Bukchin J. (2003), A weighted approach for assembly line design with station paralleling and equipment selection, IIE Transactions, 35, 73. ; Dolgui A. (2006), MIP approach to balancing transfer lines with blocks of parallel operations, IIE Transactions, 38, 869. ; Wilheim M. (1995), Integrating an expert system and a neural network for process planning, Engineering Design and Automation, 1, 4, 259. ; Zhang G. (2002), Research on flexible transfer line schematic design using hierarchical process planning, J. Materials Processing Technology, 129, 629. ; Dashchenko A. (2003), Manufacturing Technologies for Machines of the Future: 21st Century Technologies. ; Hitomi K. (1996), Manufacturing Systems Engineering.
×