In this paper, two types of similarity coefficients are com pared: (1) the Jaccard's coefficient and (2) the production volume based coefficient. Each is used to form a cellular manufacturing system whose performance will be used as a measure of effectiveness of the similarity coefficient. The sum of intercellular and intracellular material handling costs is used as a criterion for performance evaluation
Grouping parts into families which can be produced by a cluster of machine cells is the cornerstone ...
Although there exists several ways of solving the cellular manufacturing problem, including several ...
Cellular manufacturing (CM) is a concept that involves processing of similar parts on dedicated clu...
Purpose – Using the weighted similarity coefficient (WSC) technique in the design of manufacturing f...
Cellular manufacturing is an effective alternative to batch-type production systems where different ...
One of the designs of cellular manufacturing systems (CMS) requires that a machine population be par...
Cellular Manufacturing (CM) is a production philosophy that operates in view of the Group Technolog...
This paper analyses and evaluates six of the promising cell formation techniques by comparing and co...
Includes bibliographical references (pages [81]-84).Cellular manufacturing (CM) is concerned with th...
Cell formation in cellular manufacturing deals with the identification of machines which can be grou...
This article intends to justify the gap in the research of similarity coefficient driven approaches an...
Group technology (GT) has emerged as an important scientific philosophy in improving the productivit...
Cell formation in cell manufacturing design is a crucial step for improving productivity. As input d...
Purpose In a cell production system, a number of machines that differ in function are housed in the ...
This chapter illustrates the cell formation problem (CFP) supported by similarity based methods. In ...
Grouping parts into families which can be produced by a cluster of machine cells is the cornerstone ...
Although there exists several ways of solving the cellular manufacturing problem, including several ...
Cellular manufacturing (CM) is a concept that involves processing of similar parts on dedicated clu...
Purpose – Using the weighted similarity coefficient (WSC) technique in the design of manufacturing f...
Cellular manufacturing is an effective alternative to batch-type production systems where different ...
One of the designs of cellular manufacturing systems (CMS) requires that a machine population be par...
Cellular Manufacturing (CM) is a production philosophy that operates in view of the Group Technolog...
This paper analyses and evaluates six of the promising cell formation techniques by comparing and co...
Includes bibliographical references (pages [81]-84).Cellular manufacturing (CM) is concerned with th...
Cell formation in cellular manufacturing deals with the identification of machines which can be grou...
This article intends to justify the gap in the research of similarity coefficient driven approaches an...
Group technology (GT) has emerged as an important scientific philosophy in improving the productivit...
Cell formation in cell manufacturing design is a crucial step for improving productivity. As input d...
Purpose In a cell production system, a number of machines that differ in function are housed in the ...
This chapter illustrates the cell formation problem (CFP) supported by similarity based methods. In ...
Grouping parts into families which can be produced by a cluster of machine cells is the cornerstone ...
Although there exists several ways of solving the cellular manufacturing problem, including several ...
Cellular manufacturing (CM) is a concept that involves processing of similar parts on dedicated clu...