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Comparison of connected vs disconnected cellular systems using simulationLobo, Royston. January 2006 (has links)
Thesis (M.S.)--Ohio University, March, 2006. / Title from PDF t.p. Includes bibliographical references (p. 87-89)
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A holistic approach to designing cellular manufacturing systemsLau, Ka-wing, 劉家榮 January 2004 (has links)
published_or_final_version / abstract / Industrial and Manufacturing Systems Engineering / Master / Master of Philosophy
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The impact of alternative cell locations and alternative routes of material handling equipment in the design of cellular manufacturing systemsKarim, Yunan 09 December 1999 (has links)
Cellular Manufacturing Systems (CMS) have claimed many advantages over traditional job shop processes. Some of the advantages reported by several users of CMS are reduction in throughput time, reduction in WIP inventory, improvement in product quality, faster response time to customer orders, shorter move distances, increase in manufacturing flexibility, and greater job satisfaction. In its implementation, CMS organizes a production floor into manufacturing cells. Hence, the important issue that needs to be addressed first is the cell formation (CF) problem. CF deals with the identification of part families, machine groups, and allocation of part families and machine groups to cells or vice versa. In the past, most studies in CF have assumed that the location of a cell is known a priori and a unique route exists between two cells. However, in an actual manufacturing environment, alternative locations are available for locating each cell. Similarly, when the capacity of the material handler being used is limited, alternative routes may have to be used to move part loads between two cells.
In this research, the issues dealing with alternative cell locations and alternative routes of material handling equipment are investigated. In addition, several other important factors common to CF are also considered. These include machine capacity limitations, batches of part demands, non-consecutive operations of parts, and maximum number of machines assigned to a cell. A mathematical model is first formulated to represent the research problem. The model is a binary and general integer non-linear
programming model, and it belongs to the class of NP-hard problem. Therefore, a higher level heuristic algorithm, based on the concept known as tabu search, is developed to efficiently solve the problems with industry merit. Incorporating the features associated with the tabu search, resulted in developing six different versions of the heuristic solution algorithm. The six heuristics are tested on twenty small problems, and the quality of their solutions is evaluated by investing significant effort to find their optimal solutions. The evaluation shows that the heuristics are highly effective. The solutions obtained from the heuristics have average percentage deviation of less than 3% from the optimal solutions. The heuristics are also tested on their performances with medium and large problems.
By using a statistical experiment that is based on randomized block design, the performance of the six heuristics is compared. Three different problem structures, ranging from 4 parts to 30 parts and from 3 locations to 9 locations are used in the experimentation. The experiment reveals that in general, the tabu search based-heuristic using fixed tabu list size and long-term memory based on minimal frequency strategy is preferred to other heuristics as the problem size increases. / Graduation date: 2000
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The role of duplicating and subcontracting processes in the design of cellular manufacturing systemsRamakrishna, Prabha 01 April 1994 (has links)
Cellular Manufacturing Systems (CMS) have provided
significant increase in manufacturing productivity over the
last two decades. This has been achieved because CMS can
overcome the problems due to frequent setups, high in-process
inventories, long throughput times and complex
planning and coordination commonly associated with a batch-type
manufacturing operation. The underlying concept of CMS
is the grouping of parts into part families and the machines
that process these parts into machine cells in order to
achieve manufacturing efficiencies.
Creating machine cells which can perform all operations
of a part without requiring the part to visit one or more
cells other than its own is hard to achieve, if not
impossible. Hence, in the design of CMS, one tries to
minimize the material handling costs incurred due to the
movements of parts to other cells. Duplication of
"bottleneck" machines that process parts assigned to other
cells into the appropriate cells and subcontracting of
"bottleneck" parts that require one or more operation on
machines assigned to another cell are two important methods
utilized to form disaggregated manufacturing cells in order
to minimize the material handling costs.
A mathematical model and a solution algorithm is
developed to simultaneously deal with the issues of
duplicating bottleneck machines and subcontracting
bottleneck parts. Because there is a cost associated with
the process of duplication and subcontracting, the benefits
attained are analyzed for different budgetary constraints
encountered by a firm.
The algorithm was tested on three different problem
structures for a range of budgetary restrictions. The
results obtained show that the algorithm could be used by
the industry to solve problems encountered in the design of
CMS. / Graduation date: 1994
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Efficient job scheduling for a cellular manufacturing environment /Dennie, Joshua S. January 2007 (has links)
Thesis (M.S.)--Rochester Institute of Technology, 2007. / Typescript. Includes bibliographical references (leaves 86-90).
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Design and control issues in hybrid reconfigurable manufacturing systems /De Sousa Barros Basto, José António, January 2000 (has links)
Thesis (Ph. D.)--Lehigh University, 2000. / Includes vita. Includes bibliographical references (leaves 107-112).
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A holistic approach to designing cellular manufacturing systemsLau, Ka-wing, January 2004 (has links)
Thesis (M. Phil.)--University of Hong Kong, 2005. / Title proper from title frame. Also available in printed format.
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A Petri net-occam based methodology for the development of dependable distributed control softwareGray, Peter Andrew January 1995 (has links)
Analysis of flexible manufacturing cells (FMCs) shows their requirement for flexible, correct, reliable, safe and distributed control. A comparison of the state of the art in software engineering for parallel systems, and an examination of safety related systems, reveal a need for formal and rigorous techniques at all stages in the software life cycle. However, parallel software, safety related software and formal techniques are complex. It is better to avoid faults rather than eliminate or tolerate them, and although less flexible, avoidance is often simpler to implement. There is a need for a tool which overcomes many of these complexities, and this thesis discusses and defines such a tool in the form of a methodology. The novelty of the work is in the combination of the core goals to manage these issues, and how the strategies guide the user to a solution which will not deadlock and which is comprehensible. Place-transition Petri nets are an ideal representation for designing and modelling the interaction of concurrent (and distributed) processes. Occam is a high level real time parallel language designed to execute on one or a network of transputers. Transputers are processing, memory and communication building blocks, and, together with occam, are shown to be suitable for controlling and communicating the control as the DCS in FMCs. The methodology developed in this thesis adopts the mathematically based tools of Petri nets, occam and transputers, and, by exploiting their structural similarities, incorporates them in a steps and tasks to improve the development of correct, reliable and hence safe occam code. The four steps: identify concurrent and sequential operations, produce Petri net graphs for all controllers, combine controller Petri net graphs and translate Petri net graphs into occam; are structured around three core goals: Petri net/occam equivalence, comprehensibility and pro-activity; which are manifest in four strategies: output-work-backwards, concurrent and sequential actions, structuralise and modularise, and deadlock avoidance. The methodology assists in all stages of the software development life cycle, and is applicable to small DCSs such as an FMC. The methodology begins by assisting in the creation of DCS requirements from the manufacturing requirements of the FMC, and guides the user to the production of dependable occam code. Petri nets allow the requirements to be specified as they are created, and the methodology's imposed restrictions enable the final Petri net design to be translated directly into occam. Thus the mathematics behind the formal tools is hidden from the user, which should be attractive to industry. The methodology is successfully applied to the example FMC, and occam code to simulate the FMC is produced. Due to the novelty of the research, many suggestions for further work are given.
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A flexible cell formation approach for cellular manufacturing.Selim, Hassan Mohamed January 1993 (has links)
Cell formation in cellular manufacturing deals with the identification of machines which can be grouped to create manufacturing cells as well as the identification of part families processed within each cell. Manufacturing flexibility is the property of the system components that are integrally designed and linked to each other in order to allow the adaptation to various tasks. This research focuses on classifying and quantifying several types of cellular manufacturing flexibility. These types are defined in order to respond to internal and external changes. Based on these definitions, we link components of the cellular manufacturing systems (part families and machine groups) to develop a CM flexibility hierarchy. Several cellular flexibility and structural measures are developed at each level of the CM flexibility hierarchy and for each component of the CM systems. These measures can be used in order to evaluate and/or design cellular manufacturing systems. A new cell formation method (Flexible Cell Formation method), which has several unique features, is developed. This method incorporates the flexibility measures in designing cellular systems and can generate several alternative designs with different levels of flexibility. The method developed also uses a new similarity measure which incorporates machine processing capability. The proposed method is compared to selected methods of cell formation. Finally, this research concludes with a comprehensive experimental analysis to investigate the impact of several input parameters. The results are used to show how each parameter should be set by the user of the method to incorporate specific types of flexibility.
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Design of shared cells in a probabilistic demand environment /Maddisetty, Sripathi. January 2005 (has links)
Thesis (M.S)--Ohio University, March, 2005. / Includes bibliographical references (p. 131-136)
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