The following pages link to (Q5126494):
Displaying 14 items.
- Convergence theorem for solving a new concept of the split variational inequality problems and application (Q2006814) (← links)
- Viscosity self-adaptive method for generalized split system of variational inclusion problem (Q2043554) (← links)
- On a system of monotone variational inclusion problems with fixed-point constraint (Q2157731) (← links)
- Convergence analysis of the shrinking approximants for fixed point problem and generalized split common null point problem (Q2157755) (← links)
- Relaxed and hybrid viscosity methods for general system of variational inequalities with split feasibility problem constraint (Q2436341) (← links)
- Strong convergence results for variational inclusions, systems of variational inequalities and fixed point problems using composite viscosity implicit methods (Q5057974) (← links)
- Modified Tseng's extragradient methods with self-adaptive step size for solving bilevel split variational inequality problems (Q5085239) (← links)
- New inertial modification of regularized algorithms for solving split variational inclusion problem (Q6056176) (← links)
- An intermixed method for solving the combination of mixed variational inequality problems and fixed-point problems (Q6062386) (← links)
- A three-operator splitting algorithm with deviations for generalized DC programming (Q6169253) (← links)
- A modified Ishikawa iteration scheme for <i>b</i>‐enriched nonexpansive mapping to solve split variational inclusion problem and fixed point problem in Hilbert spaces (Q6178255) (← links)
- Some variants of the hybrid extragradient algorithm in Hilbert spaces (Q6498652) (← links)
- An efficient self-adaptive algorithm for finding common solutions to pseudomonotone variational inequalities and split fixed point problems in Hilbert spaces (Q6581965) (← links)
- Relaxed inertial method for solving split monotone variational inclusion problem with multiple output sets without co-coerciveness and Lipschitz continuity (Q6596311) (← links)