Title: Computeraided Equipment Selection in Assembly Line Design
1Computer-aided Equipment Selection in Assembly
Line Design
- Pierre De Lit
- CAD/CAM Department
- Université libre de Bruxelles
2What will we talk about?
- Introduction
- The PROMETHEE II method
- Selection of assembly methods
- Equipment selection
- Conclusions
3What will we talk about?
- Introduction
- The PROMETHEE II method
- Selection of assembly methods
- Equipment selection
- Conclusions
4The aim is to design hybrid assembly lines
- Different kinds of stations
- Manual
- Dedicated/Robotic
5The user can follow a quick or a detailed solving
approach
Quick solving
Detailed solving
6What will we talk about?
- Introduction
- The PROMETHEE II method
- Selection of assembly methods
- Equipment selection
- Conclusions
7PROMETHEE is a multicriteria decision-aid method
- PROMETHEE is a method
- allowing the designer to choose the best
alternative... - Decision-aid
- by taking different criteria of different kind
into account - Multicriteria
8Choosing a new car is a multicriteria problem
- Criteria
- Price (FB)
- Consumption (l/100km)
- Comfort
- Power
- ...
9According to the criterion, solutions are better
or worse
10A preference function is defined for each
criterion
Criterion Power
Ppower(a,b)
Preference threshold 20
2 20
Indifference threshold 2
11The indifference threshold should depend on
relative variations
- Example
- d f(a) - f(b) 10 CV - 5 CV 5 CV
- d f(a) - f(b) 150 CV - 145 CV 5 CV
- Influence of d should be stronger in the first
case - Compute the preference function with respect to
the relative variation between the evaluations
12Intermediate evaluation functions are used for
qualitative criteria
Example comfort
13A PROMETHEE II ranking is computed for each
solution
- Multicriteria preference index p(a,b)
- Multicriteria solution flow
- PROMETHEE II complete ranking
f f - f- net flow
14The PROMETHEE II method has three main features
- Establishes a complete ranking of the different
alternatives - By comparing the relative difference of
performance of all the solutions criteria by
criteria - By taking user preferences into account, by mean
of criteria weights
15What will we talk about?
- Introduction
- The PROMETHEE II method
- Selection of assembly methods
- Equipment selection
- Conclusions
16Quick solving approach
Quick solving
SELEQ (Pre-selection of assembly equipment)
RP (Resource planning)
Detailed logical layout
List offunctional groups
Equipment DB
17Each operation is decomposed into three primitive
actions
- Feeding
- Picking from the storage, positionning and
orienting before transfer - Handling
- Transfer to final position and orientation
- Insertion
- Bringing together with other components
18Three possible methods are considered for each
sub-operation
- Manual method
- The most flexible
- Robotic method
- Partially flexible
- Dedicated or automated method
- The most specific
The solutions are ranked with PROMETHEE II
19Common criteria have been classified into four
categories
- General criteria of the line
- cycle time, payback period
- Geometrical features of each part
- dimensions, symmetry, etc.
- Non-geometrical criteria for each part
- fragility, slipperyness, hotness, etc.
- Generic criteria for the operation
- number of part variants, repetitions, etc.
20Some criteria are specific to each sub-operation
- Specific criteria for feeding
- Part is packed, risk of overlapping, etc.
- Specific criteria for handling
- presence of handling surface, need for optical
magnification, etc. - Specific criteria for insertion
- resistance to insertion, limited view, etc.
21The principal window presents the operations and
their modes
22The influence of an answer to one question can be
checked
23The influence of each type of criterion can be
measured
24The influence of the criteria themselves can be
approciated
25The weights can be modified and their influence
easily seen
26The operating mode evaluation influences the line
balancing
- Tc - Prec constraints
Operating modes
Preference constraints
LB
WS1
WS2
WS3
WS4
(manual)
(manual)
(dedicated)
(robotic/ dedicated)
27The line balancing influences the operating mode
evaluation
First layout
WS 2
Robotic
Second layout
28What will we talk about?
- Introduction
- The PROMETHEE method
- Selection of assembly methods
- Equipment selection
- Conclusions
29Detailed solving approach
Rough logical layout
LB (Line balancing)
Operating times
Detailed solving
30The equipment are stored in the database
according to a tree
31The aim of the equipment selection is to create
functional groups
- Functional group potential set of equipment used
for the line design with - cost
- time (possible to deal with masked times)
- availability
- room occupied
- Several functional groups can be created for one
operation
32A functional group creation occurs in three steps
Select a general category
Some combinationsare not allowed (ex RMR)
Select a technical category
Parameters describe the needs - screwing torque -
riveting force - number of axes of a robot -
feeding autonomy
Select the equipment
33The equipment used is finally chosen by a
resource planner
34The equipment selection results from a compromise
(PROMETHEE)
35What will we talk about?
- Introduction
- The PROMETHEE method
- Selection of assembly methods
- Equipment selection
- Conclusions
36Let us conclude
- New method for equipment selection in three main
stages - Operating method selection
- Construction of functional groups
- Selection of the equipment by a resource planner
- Tool is simple to use and interactive
- Designer preferences can be set transparently
- Results are easy to trace