Using a three-particle maximally entangled state and an auxiliary particle in the ground state|0>as the quantum channel,a new deterministic scheme for transmitting an unknown three-particle GHZ(Greenberger-Horne-Zeilinger)state is proposing.In this scheme,the sender and the receiver share the auxiliary particle at the same time,and both parties need to perform quantum gate operation on the shared auxiliary particle.The results show that the scheme saves quantum entanglement resources but shortens the teleportation distance,and can be extended to the teleportation of multi-particle GHZ state.Furthermore,taking the amplitude damp-ing channel as an example,the influence of quantum noise on the scheme is discussed,and the fidelity of teleportation is obtained.The influence of weak measurement and its reversal measurement on the noise scheme is analyzed.It is found that for a specific GHZ state,the weak measurement and its reversal measurement will suppress or deteriorate the degradation of the fidelity of its teleporta-tion caused by noise.