The masses of sterile neutrinos are not yet known, and depending on the orders of magnitudes, their existence may explain reactor anomalies or the spectral shape of reactor neutrino events at 1.5 km baseline detector. Here, we present four-neutrino analysis of the results announced by RENO and Daya Bay, which performed the definitive measurements of θ 13 based on the disappearance of reactor antineutrinos at km order baselines. Our results using 3 + 1 scheme include the exclusion curve of Δ m 41 2 versus θ 14 and the adjustment of θ 13 due to correlation with θ 14 . The value of θ 13 obtained by RENO and Daya Bay with a three-neutrino oscillation analysis is included in the 1 σ interval of θ 13 allowed by our four-neutrino analysis.