Add to ORKGLinear Complementarity Problems (LCPs) belong to the class of NP-complete problems. Therefore we can not expect a polynomial time solution method for LCPs without requiring some special property of the coefficient matrix. Following our recently published ideas we generalize affine scaling and predictor-corrector interior point algorithms to solve LCPs with general matrices in EP-sense, namely, our generalized interior point algorithms either solve the problems with rational coefficient matrix in polynomial time or give a polynomial size certificate that our matrix does not belong to the set of P * (~κ) matrices, with arbitrary large, but apriori fixed, rational, positive ~κ
AbstractIn this paper we propose a new large-update primal–dual interior point algorithm for P∗(κ) l...
In this article we discuss the interior-point algorithm for the general complementarity problems (LC...
We introduce a new feasible corrector-predictor (CP) interior-point algorithm (IPA), which is suitab...
Linear Complementarity Problems (LCPs) belong to the class of NP-complete problems. Therefore we can...
Linear Complementarity Problems (LCPs) belong to the class of NP-complete problems. Therefore we can...
Linear Complementarity Problems (LCPs) belong to the class of NP-complete problems. Therefore we can...
Linear Complementarity Problems (LCP s) belong to the class of NP-complete problems. Therefore we ca...
We propose a new predictor-corrector (PC) interior-point algorithm (IPA) for solving linear compleme...
We propose a new predictor-corrector (PC) interior-point algorithm (IPA) for solving linear compleme...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
AbstractIn this paper we propose a new large-update primal–dual interior point algorithm for P∗(κ) l...
In this article we discuss the interior-point algorithm for the general complementarity problems (LC...
We introduce a new feasible corrector-predictor (CP) interior-point algorithm (IPA), which is suitab...
Linear Complementarity Problems (LCPs) belong to the class of NP-complete problems. Therefore we can...
Linear Complementarity Problems (LCPs) belong to the class of NP-complete problems. Therefore we can...
Linear Complementarity Problems (LCPs) belong to the class of NP-complete problems. Therefore we can...
Linear Complementarity Problems (LCP s) belong to the class of NP-complete problems. Therefore we ca...
We propose a new predictor-corrector (PC) interior-point algorithm (IPA) for solving linear compleme...
We propose a new predictor-corrector (PC) interior-point algorithm (IPA) for solving linear compleme...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
Linear Complementarity Problems (LCPs) belong to the class of -complete problems. Therefore we canno...
AbstractIn this paper we propose a new large-update primal–dual interior point algorithm for P∗(κ) l...
In this article we discuss the interior-point algorithm for the general complementarity problems (LC...
We introduce a new feasible corrector-predictor (CP) interior-point algorithm (IPA), which is suitab...