Intra-body　Communication　(IBC)　is　an　emerging　and　interesting　communication　technique　in　recent　years.　Utilizing　the　conductive　property　of　human　body,　IBC　employs　human　body　as　communication　medium　for　transmitting　electrical　signals.　As　a　result,　electromagnetic　interference　can　be　greatly　reduced　for　devices　communicated　within　human　body.　These　advantages　are　significant　for　home　health　care　system,　which　abundant　of　interconnected　cables　are　inevitable.　In　this　paper,　a　preliminary　quasi-static　electromagnetic　model　for　IBC　based　on　the　galvanic　method　is　developed.　This　model　attempts　to　provide　insight　of　transmitting　electrical　signal　through　human　body　and　forms　a　basis　for　developing　IBC　applications.　Furthermore,　this　model　is　capable　of　providing　the　potential　distribution　in　different　type　of　biology　tissues　with　different　conductivities　at　low　frequency.　Finally,　experimental　measurements　are　conducted　for　validating　the　correctness　of　the　model.　©2009　IEEE.