Download This PaperOn Throughput Maximization in Constant Travel-Time Robotic Cells
Manufacturing & Service Operations Management, Vol. 4, No. 4, pp. 296-312, Fall 2002
33 Pages Posted: 11 Mar 2008 Last revised: 28 Jan 2009
Abstract
We consider the problem of scheduling operations in bufferless robotic cells that produce identical parts. The objective is to find a cyclic sequence of robot moves that minimizes the long-run average time to produce a part or, equivalently, maximizes the throughput rate. The robot can be moved in simple cycles that produce one unit or, in more complicated cycles, that produce multiple units. Because one-unit cycles are the easiest to understand, implement, and control, they are widely used in industry. We analyze one-unit cycles for a class of robotic cells called constant travel-time robotic cells. We complete a structural analysis of the class of one-unit cycles and obtain a polynomial time algorithm for finding an optimal one-unit cycle.
Constant travel-time robotic cells are used in real manufacturing operations that the authors have encountered during their interactions with companies. The results and the analysis in this paper offer practitioners (i) a tool to experiment with and study the design of a proposed robotic cell during a prototyping exercise, (ii) a lower bound on the throughput of a robotic cell to help them make an informed assessment of the ultimate productivity level, and (iii) a benchmark throughput level (for comparison purposes) for robotic cells whose operations differ slightly from those discussed in this paper.
Keywords: maufacturing; robotic cell; identical parts; polynomial time algorithm
JEL Classification: C61, M11
Suggested Citation: Suggested Citation
Do you have a job opening that you would like to promote on SSRN?
Recommended Papers
-
Sequencing of Parts and Robot Moves in a Robotic Cell
By Suresh Sethi, Chelliah Sriskandarajah, ...
-
Scheduling in Dual Gripper Robotic Cells for Productivity Gains
By Suresh Sethi, Jeff Sidney, ...
-
Dominance of Cyclic Solutions and Challenges in the Scheduling of Robotic Cells
By Milind Dawande, Neil Geismar, ...