Abstract:

This paper develops new semidefinite programming (SDP) relaxation techniques for two classes of mixed binary quadratically constrained quadratic programs and analyzes their approximation performance. The first class of problems finds two minimum norm vectors in N-dimensional real or complex Euclidean space, such that M out of 2M concave quadratic constraints are satisfied. By employing a special randomized rounding procedure, we show that the ratio between the norm of the optimal
solution of this model and its SDP relaxation is upper bounded by 54M²/ π in the real case and by 2√4M/π in the complex case. The second class of problems finds a series of minimum norm vectors subject to a set of quadratic constraints and cardinality constraints with both binary and continuous variables. We show that in this case the approximation ratio is also bounded and independent of problem dimension for both the real and the complex cases.