General Aviation Aircraft (GAA) product family design problem
This problem has nine design variables described in [table_1]. There are three aircraft types (2-seater, 4-seater, and 6-seater), giving a total of 27 design variables. There are 10 objectives [table_2] and one constraint used in this formulation. The code is from https://github.com/matthewjwoodruff/generalaviation and more details about the test problem can be found in [1], [2], [3] and [4].
Design variables |
|||
|---|---|---|---|
No. |
Name |
Minimum |
Maximum |
1 |
Nominal cruising speed |
0.24 |
0.48 |
2 |
Aspect ratio |
7 |
11 |
3 |
Wing sweep |
0 |
6 |
4 |
Propeller diameter |
5.5 |
5.968 |
5 |
Wing loading |
19 |
25 |
6 |
Activity factor |
85 |
110 |
7 |
Seat width |
14 |
20 |
8 |
Tail elonagation |
3 |
3.75 |
9 |
Wing taper |
0.46 |
1 |
Objectives |
|||
|---|---|---|---|
No. |
Objectives |
Value |
Preference |
1 |
Maximum NOISE |
Max (NOISE2, NOISE4 NOISE6) |
Minimize |
2 |
Maximum WEMP |
Max (WEMP2, WEMP4, WEMP6) |
Minimize |
3 |
Maximum DOC |
Max (DOC2, DOC4, DOC6) |
Minimize |
4 |
Maximum ROUGH |
Max (ROUGH2, ROUGH4, ROUGH6) |
Minimize |
5 |
Maximum WFUEL |
Max (WFUEL2, WFUEL4, WFUEL6) |
Minimize |
6 |
Maximum PURCH |
Max (PURCH2, PURCH4, PURCH6) |
Minimize |
7 |
Minimum RANGE |
Min (RANGE2, RANGE4, RANGE6) |
Maximize |
8 |
Minimum max LDMAX |
Min (LDMAX2, LDMAX4, LDMAX6) |
Maximize |
9 |
Minimum max VCMAX |
Min (VCMAX2, VCMAX4, VCMAX6) |
Maximize |
10 |
PFPF |
Minimize |
|
where Product Family Penalty Function (PFPF) [5] penalises the uniqueness within the product family by measuring the percentage variation of the design variables within the product family.
Note that the PFPF value differs a bit from the values in the article [4]. The new version of PFPF that is used here, could explain the difference.