422 research outputs found
Joint cell loading and scheduling approach to cellular manufacturing systems
Cataloged from PDF version of article.A hierarchical multi-objective heuristic algorithm and pricing mechanism are developed to first determine the cell loading decisions, and then lot sizes for each item and to obtain a sequence of items comprising the group technology families to be processed at each manufacturing cell that minimise the setup, inventory holding, overtime and tardiness costs simultaneously. The linkage between the different levels is achieved using the proposed pricing mechanism through a set of dual variables associated with the resource and inventory balance constraints, and the feasibility status feedback information is passed between the levels to ensure internally consistent decisions. The computational results indicate that the proposed algorithm is very efficient in finding a compromise solution for a set of randomly generated problems compared with a set of competing algorithms. © 2011 Taylor & Francis
Tool allocation and machining conditions optimization for CNC machines
Cataloged from PDF version of article.In the literature, there exist many variations of machining economics problem in terms of modelling approaches and
solution methodologies. However most of the existing studies focus on the single machining operation which is seldom in
practice. On the other hand, tool management approaches at the system level fail to relate the tooling issues to the machining
conditions, and ignore the tool availability and tool wear restrictions. A new solution methodology is developed to determine
the optimum machining conditions and tool allocation simultaneously to minimize the production cost of a multiple
operation case where there can be alternative tools for each operation. As a result, we can both improve the solution by
exploiting the interaction between these two decisions, and also prevent any infeasibility that might occur for the tool
allocation problem due to tool contention among the operations for a limited number of tool types by considering the tool
availability and tool life limitations
Single CNC machine scheduling with controllable processing times to minimize total weighted tardiness
Cataloged from PDF version of article.Advanced manufacturing technologies, such as CNC machines, require significant investments, but also offer new capabilities to the manufacturers. One of the important capabilities of a CNC machine is the controllable processing times. By using this capability, the due date requirements of customers can be satisfied much more effectively. Processing times of the jobs on a CNC machine can be easily controlled via machining conditions such that they can be increased or decreased at the expense of tooling cost. Since scheduling decisions are very sensitive to the processing times, we solve the process planning and scheduling problems simultaneously. In this study, we consider the problem of scheduling a set of jobs on a single CNC machine to minimize the sum of total weighted tardiness, tooling and machining costs. We formulated the joint problem, which is NP-hard since the total weighted tardiness problem (with fixed processing times) is strongly NP-hard alone, as a nonlinear mixed integer program. We proposed a DP-based heuristic to solve the problem for a given sequence and designed a local search algorithm that uses it as a base heuristic
Tool magazine arrangement and operation sequencing on CNC machines
Cataloged from PDF version of article.two-phase approach is developed to solve the tool magazine arrangement and operations
sequencing problems. The overall aim is to minimize the total manufacturing cost by utilizing the benefits of tool
sharing concept and loading duplicate tools due to a possible decrease in tooling and tool operating costs while
maintaining the feasibility in terms of precedence, tool magazine capacity, tool life covering and tool availability
constraints due to tool contention among the operations for a limited number of tool types, because the absence
of such crucial constraints may lead to infeasible results. Furthermore, the proposed approach can provide an
effective decision making tool for the short term operational decisions of FMS. Copyright © 1996 Elsevier
Science Lt
Sharp Markov-type Inequalities for Rational Functions on Several Intervals
In this paper, we give sharp Rusak- and Markov-type inequalities for rational
functions on several intervals when the system of intervals is a
\textquotedblleft rational function inverse image\textquotedblright\, of an
interval and those functions are large in gaps
Dynamic lot sizing and tool management in automated manufacturing systems
Cataloged from PDF version of article.The overall aim of this study is to show that there is a critical interface between the lot sizing and tool
management decisions, and these two problems cannot be viewed in isolation. We propose "ve alternative
algorithms to solve lot sizing, tool allocation and machining conditions optimization problems simultaneously.
The "rst algorithm is an exact algorithm which "nds the global optimum solution, and the others
are heuristics equipped with a look-ahead mechanism to guarantee at least local optimality. The computational
results indicate that the amount of improvement is statistically signi"cant for a set of randomly
generated problems. The magnitude of cost savings is dependent on the system parameters
A new lower bounding scheme for the total weighted tardiness problem
Cataloged from PDF version of article.We propose a new dominance rule that provides a sufficient condition for local optimality for the 1\\Sigma w(i)T(i) problem. We prove that if any sequence violates the proposed dominance rule, then switching the violating jobs either lowers the total weighted tardiness or leaves it unchanged. Therefore, it can be used in reducing the number of alternatives for finding the optimal solution in any exact approach. We introduce an algorithm based on the dominance rule, which is compared to a number of competing approaches for a set of randomly generated problems. We also test the impact of the dominance rule on different lower bounding schemes. Our computational results over 30,000 problems indicate that the amount of improvement is statistically significant for both upper and lower bounding schemes. (C) 1998 Elsevier Science Ltd. All rights reserved
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