Combinatorial clustering based on an externally-defined one-hot constraint

Recently, a clustering method using a combinatorial optimization problem, called combinatorial clustering, has been drawing attention due to the rapid spreads of quantum annealing and simulated annealing. Combinatorial clustering is performed by minimizing an objective function under a condition to satisfy a constraint. The objective function and the constraint function are generally formulated to a unified objective function of a QUBO (Quadratic Unconstrained Binary Optimization) problem by the method of the Lagrange multiplier. Although the Lagrange multiplier needs to be large enough to avoid violating the one-hot constraint, the Lagrange multiplier usually cannot be set appropriately due to the limitation of the bit precision. The latest quantum annealer can handle values represented by only six or fewer bits. Even conventional computing systems cannot handle the larger value of the Lagrange multiplier as the number of data points increases. To solve this problem, this paper proposes combinatorial clustering that overcomes the limitations of the method of the Lagrange multiplier. The proposed method uses a QUBO solver that can externally define the one-hot constraint independent from the objective function, and the externally-defined constraint is satisfied by the bit-flip operations. Since the constraint function is not included in the objective function, it is no longer needed to determine the Lagrange multiplier. The experimental results show that the proposed method can improve the quality of clustering results.