An　intra-body　communication　(IBC)　research　platform　based　on　virtual　instrument　was　established　for　the　hardware　design　of　IBC　transceiver.　Firstly,　the　feasibility　of　constructing　IBC　research　platform　using　optic-coupling　circuit　was　verified　via　comparison　of　three　kinds　of　measurement　methods　based　on　virtual　instrument.　Then,　ASK,　FSK　and　BPSK　modulation-demodulation　were　realized　via　LabVIEW　programming,　and　user　interface　of　the　platform　was　also　designed.　The　platform　could　achieve　signal　transmission　or　recover　under　different　coupling　type,　different　channel　distance　and　different　modulation-demodulation　method,　etc.,　by　means　of　dynamic　adjusting　of　platform　parameters.　Experiment　results　of　capacitive-coupling　under　the　platform　indicated　the　authenticity　and　feasibility　of　signal　transmission.　Finally,　a　full-floating　IBC　transceiver　was　designed　aided　by　the　parameters　provided　by　the　research　platform　under　the　scene　of　capacitive-coupling,　FSK　modulation　and　180　cm　channel　distance.　Moreover,　Bit　Error　Rate　(BER)　of　the　transceiver　was　less　than　1e-5,　which　meant　that　it　is　effective　and　convenient　for　the　design　of　IBC　transceiver　aided　by　virtual　instrument　platform.　©　2017　IEEE.