A systematic multi-criteria method for designing panel layout is proposed here. The algorithm contains two phases: first, to find the selection order of each device, and second, to place these devices into the panels. In the selection phase, the most important device should first be entered and placed in the centre of the panel—the most important device is determined by applying Zeleny's operational model. The other devices' entering priorities are determined by the total relationship rating score. In the placement phase, a spiral placement algorithm is used to place devices into the panels. A computer program is implemented for this multiple criteria panel layout algorithm. A layout which has the average performance of 95·2% to the ideal layout is generated. The layout program allows the designer to make manual adjustments interactively, so as to produce a layout that is preferable to the decision-maker's.
[1]
M. C. Bonney,et al.
CAPABLE. A Computer Program to Layout Controls and Panels
,
1977
.
[2]
Meir J. Rosenblatt,et al.
The facilities layout problem: a multi-goal approach
,
1979
.
[3]
Jerzy Grobelny,et al.
The ‘linguistic pattern’ method for a workstation layout analysis
,
1988
.
[4]
Leo A. Smith,et al.
Design of Control and Display Panels Using Computer Algorithms
,
1973
.
[5]
Pulat BaburMustafa,et al.
A Computer-Aided Panel Layout Procedure for Process Control Jobs—LAYGEN
,
1985
.
[6]
S. Sahu,et al.
A multigoal heuristic for facilities design problems: MUGHAL
,
1982
.
[7]
R. S. Laundy,et al.
Multiple Criteria Optimisation: Theory, Computation and Application
,
1989
.