Theory and Modern Applications
From: On q-BFGS algorithm for unconstrained optimization problems
Problem number | Problem’s name | Starting Point |
---|---|---|
1 | Rastrigin | \((0.2, 0.1)^{T}\) |
2 | mvfChichinadze | \((4.5, 0.52)^{T}\) |
3 | Price Function | \((1 , -2 )^{T}\) |
4 | Beale | \((3, 1.5)^{T}\) |
5 | mvfBohachevsky1 | \((0.1 , 0.2)^{T}\) |
6 | mvfBohachevsky2 | \((1 , -5.8)^{T}\) |
7 | Box-Betts exponential | \((-8 ,-33, -1)^{T}\) |
8 | Branin | \((9.3 , 3)^{T}\) |
9 | Three-Hump Camel | \((-3.4 , 0)^{T}\) |
10 | Six Hump Camel | \((-0.6 , 2)^{T}\) |
11 | Chichinadze | \((5,7 , 0.4)^{T}\) |
12 | Colville | \((0.7 , 0.4 1 3)^{T}\) |
13 | Easom | \((3 , 3.8)^{T}\) |
14 | Exp2 | \((1 , 10)^{T} \) |
15 | Goldstein–Price | \((2 , -1.2)^{T}\) |
16 | Griewank10 | \((2 , -1.2)^{T}\) |
17 | Hansen | \((4.9 , 5.2)^{T}\) |
18 | Hartman 3D | \((-1 , 2 , 1)^{T}\) |
19 | SHEKEL | \((3, 4 , 4 , 4)^{T}\) |