Add to ORKGThe linear complementarity problem (LCP) belongs 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 matrix of the problem. We show that the dual LCP can be solved in polynomial time if the matrix is row sufficient, moreover in this case all feasible solutions are complementary. Furthermore we present an existentially polytime (EP) theorem for the dual LCP with arbitrary matrix
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...
The linear complementarity problem (LCP) belongs to the class of NP -hard problems. Therefore, we ca...
The linear complementarity problem (LCP) belongs to the class of NP-complete problems. Therefore we ...
The linear complementarity problem (LCP) belongs to the class of NP-complete problems. Therefore we ...
The linear complementarity problem (LCP) belongs to the class of NP-complete problems. Therefore we ...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard 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...
The linear complementarity problem (LCP) belongs to the class of NP -hard problems. Therefore, we ca...
The linear complementarity problem (LCP) belongs to the class of NP-complete problems. Therefore we ...
The linear complementarity problem (LCP) belongs to the class of NP-complete problems. Therefore we ...
The linear complementarity problem (LCP) belongs to the class of NP-complete problems. Therefore we ...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard problems. Therefore, we canno...
The linear complementarity problem (LCP) belongs to the class of -hard 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...