In this thesis, we demonstrate two synchronization loops in DVB-T baseband receive. One is symbol boundary detection and the other is carrier freqeuncy offset recovery loop. We introduce a modified maximum likelihood estimation in boundary detection loop. We modify some implemation methods, thus it can be realized by morden VLSI technology with less complexity. And it has two benefits less memory usage and fast detection speed. In carrier frequency offset recovery, we integrate three different algorithms. Which are maximum likelihood estimation, guard band power detection and post-FFT carrier freqeuncy tracking. By applying our modification, these algorithms can sharing the same hardware of boundary detection. Thus just a little additional circuits are needed (ex. finite state machines). The baseband receiver can resist symbol boundary offset and carrier freuquency offset by using these two modified algorithms without heavy implemation cost.