A new quantum secure multiparty summation protocol with locally indistinguishable orthogonal product states

Abstract

As an important branch of quantum-secure multiparty computation, quantum-secure multiparty summation enables participants to complete the summation of their inputs without revealing their own secrets. In this paper, a new multiparty quantum secure summation protocol based on locally indistinguishable orthogonal product (LIOP) states is proposed. Leveraging the properties of LIOP states, participants can successfully accomplish the summation of their secrets with the assistance of a semi-honest third party (TP). The present protocol is shown to effectively resist certain existing attacks. Furthermore, complex operations and entanglement resources are not required in the proposed protocol. We anticipate that these results will contribute positively to the future development of quantum-secure multiparty computation.