From: Weak convergence theorem for variational inequality problems with monotone mapping in Hilbert space
n | \(\boldsymbol{x_{n}^{1}}\) | \(\boldsymbol{x_{n}^{2}}\) | \(\boldsymbol{x_{n}^{3}}\) | \(\boldsymbol{E_{n}}\) |
---|---|---|---|---|
0 | 1.0000 | 1.0000 | 1.0000 | 7.00E + 00 |
10 | 2.9932 | 3.9399 | −2.3981 | 2.60E + 00 |
50 | 2.7238 | 4.3377 | −4.7600 | 4.98E − 01 |
100 | 2.7501 | 4.2636 | −4.9161 | 3.73E − 01 |
500 | 2.9237 | 4.0805 | −4.9746 | 1.14E − 01 |