Orthogonal Frequency Division Multiplexing(OFDM) is an effective technique to deal with a frequency selective channel since it can convert the channel into some flat fading subchannels.However,very different output SNR values of the subchannels will lead to poor bit error performance when a linear equalizer and Equal Bit Allocation(EBA) are adopted in OFDM systems.So,we proposed three novel nonlinear Joint Transceiver(JT) schemes based on Zero-Forcing(ZF) criterion and Minimum Mean Square Error(MMSE) criterion respectively,which can transform all subchannels of an OFDM system into subchannels with identical channel gain.Thus,EBA is equivalent to the Optimum Bit Allocation(OBA) for these subchannels.Numerical analysis helps us to obtain the theoretical approximate BER values of the JT scheme.Simulation results verify the numerical analysis and confirm that the performance of our proposed JT scheme greatly outperforms the traditional linear equalizer with EBA at moderate and high SNR values. Orthogonal Frequency Division Multiplexing (OFDM) is an effective technique to deal with a frequency selective channel since it can convert the channel into some flat fading subchannels.However, very different output SNR values ​​of the subchannels will lead to poor bit error performance when a linear we propose three novel nonlinear Joint Transceiver (JT) schemes based on Zero-Forcing (ZF) criterion and Minimum Mean Square Error (MMSE) criteria respectively, which can transform all subchannels of an OFDM system into subchannels with identical channel gain. Thus, EBA is equivalent to the Optimum Bit Allocation (OBA) for these subchannels.Numerical analysis helps us to obtain the theoretical approximate BER values ​​of the JT scheme. Simulation results verify the numerical analysis and confirm that the performance of our proposed JT scheme greatly outperforms the traditional linear equalizer with EBA at moderate and high SNR val ues.