In　the　state-of-the-art　video　coding　standards　H.264/AVC　and　H.265/HEVC,　adaptive　search　range　(ASR)　control　has　achieved　a　significant　performance　in　reducing　the　computational　complexity　of　motion　estimation.　Nevertheless,　the　application　of　ASR　in　adjacent　coding　units　may　bring　error　propagation,　and　the　ASR　values　may　vary　subject　to　different　layers　in　hierarchical　prediction　structure.　Here　we　propose　two　separate　algorithms　for　ASR　in　H.265/HEVC:　an　error　propagation　resilience　algorithm　that　eliminates　the　rate-distortion　(RD)　loss　due　to　error　propagation,　and　a　hierarchical　range　adjustment　algorithm　that　adjusts　the　ASR　values　between　hierarchical　layers.　Simulation　results　show　that　our　methods　greatly　improve　the　RD　performances　of　traditional　ASR　works　whilst　keeping　almost　intact　complexity　reductions.