In　this　letter,　we　study　the　fast　and　noise-resistant　population　transfer,　quantum　entangled　states＇　preparation　and　quantum　entangled　states＇　transition　by　constructing　shortcuts　to　adiabatic　passage　(STAP)　for　multiparticles　based　on　the　approach　of　＇Lewis-Riesenfeld　invariants＇　in　a　distant　cavity　quantum　electronic　dynamics　(QED)　system.　Numerical　simulation　demonstrates　that　all　of　the　schemes　are　fast　and　robust　against　the　decoherence　caused　by　atomic　spontaneous　emission　and　photon　leakage.　Moreover,　it　is　not　only　the　total　operation　time　but　also　the　robustness　in　each　scheme　against　decoherence　that　is　irrelevant　to　the　number　of　qubits.　This　might　lead　to　a　useful　step　toward　realizing　fast　and　noise-resistant　quantum　information　processing　in　current　technology.