When analyzing energy usage or doing other power-system-relative researches, the wire that transfer electrical power are usually regarded as ideal electric conductor and with no impedance. However, in real life, the power-lines are not ideal after all, and their impedance frequently causes error in measurement or analysis, eventually leads to bad experiment result when using real data. For example, Non-intrusive load monitoring system often retrieves wrong answers in appliance recognition because of wire impedance. Therefore, in our research, we find out the influence of wire impedance, recover from relative errors, and propose a method that takes advantage of wire impedance to build power-line topology. We built a linear programming model which corrects the error appliance states that were caused by wire impedance. And we compare the influenced power characteristics with ideal ones to evaluate wire impedance value, obtain the relative position of appliances, and finally rebuilt the power-line topology.