Auto-thermal reforming of methane, combining partial oxidation and reforming of methane with CO2 or steam, was carried out with Pt/Al2O3, Pt/ZrO2 and Pt/CeO2 catalysts, in a temperature range of 300-900℃. The auto-thermal reforming occurs in two simultaneous stages, namely, total combustion of methane and reforming of the unconverted methane with steam and CO2, with the O2 conversion of 100% starting from 450 ℃. For combination with CO2 reforming, the Pt/CeO2 catalyst showed the lowest initial activity at 800 ℃, and the highest stability over 40 h on-stream. This catalyst also presented the best performance for the reaction with steam at 800 ℃. The higher resistance to coke formation of the catalyst supported on ceria is due to the metal-support interactions and the higher mobility of oxygen in the oxide lattice. Auto-thermal reforming of methane, combining partial oxidation and reforming of methane with CO2 or steam, was carried out with Pt / Al2O3, Pt / ZrO2 and Pt / CeO2 catalysts, in a temperature range of 300-900 ° C. The auto-thermal reforming occurs in two simultaneous stages, namely, total combustion of methane and reforming of unconverted methane with steam and CO2, with the O2 conversion of 100% starting from 450 ° C. For combination with CO2 reforming, the Pt / CeO2 catalyst showed the lowest initial catalyst at 800 ° C, and the highest stability over 40 h on-stream. This catalyst also presented the best performance for the reaction with steam at 800 ° C. The higher resistance to coke formation of the catalyst supported on ceria is due to the metal -support interactions and the higher mobility of oxygen in the oxide lattice.