The　main　defects　of　the　existing　quantum　secret　sharing　schemes　are　as　follows:　(1)　The　identity　of　the　secret　sender　cannot　be　confirmed.　Receivers　of　shared　secret　information　may　be　vulnerable　to　Trojan　attacks;　(2)　If　a　malicious　attacker　Eve　impersonates　the　identity　of　the　receiver,　she　can　finally　obtain　all　the　information　of　the　secret　that　Alice　shared;　(3)　In　the　process　of　secret　recovery,　it　is　necessary　to　transmit　qubits　among　all　participants　involved　in　secret　recovery.　Sometimes,　the　same　particle　needs　to　be　operated　on　by　all　participants　to　achieve　secret　sharing,　which　increases　the　possibility　of　eavesdropping　and　also　increases　the　probability　of　errors.　In　this　work,　we　proposed　a　quantum　secret　sharing　scheme　with　authentication,　the　receiver　performs　corresponding　operations　on　qubits　of　Greenberger-Horne-Zeilinger(GHZ)　state　based　on　the　key　string　calculated　by　the　shared　identity　number　and　random　Error　Correction　Code(ECC),　the　secret　sender　can　calculate　the　corresponding　measurement　basis(MB)　through　the　information　she　has,　and　then　inform　the　measurement　party.　This　process　realizes　the　mutual　authentication　between　the　sender　and　the　receiver.　It　can　protect　against　identity　impersonation　attacks,　through　the　ECC　verification,　it　also　can　resist　intercept-resend　attacks.