In this paper, a novel algorithm is proposed to predict the noise coupling between the electromagnetic interference (EMI) source and victim inside the same shielding box. Firstly, the unknown EMI source and victim are represented by equivalent dipoles. The phaseless near-fields radiated from the EMI source and victim under transmitting mode are used to construct the equivalent dipoles. To accurately consider the effect of the shielding box on the equivalent dipoles, the leaked near-fields from the shielding box are used to adjust the moments of the constructed dipoles. Furthermore, the Norton/Thevenin equivalent circuit of the victim is developed, where the excitation current/voltage is obtained by using the reciprocity theorem. Measurement results show the accuracy of the proposed algorithm.