The identification of the aerodynamic coefficients, based on free flight measurements, remains a difficult task for flying vehicles like space vehicles, munitions, Unmanned Aerial Vehicles. This is mainly due to the nonlinear structure of the mathematical model describing the behavior of the vehicle in flight, the absence of an input signal, the unknown initial conditions and the nonlinear dependence of the aerodynamic coefficients on several state variables. Under these conditions, the estimation of the model parameters must be processed with caution. In this paper, a detailed procedure for the estimation of the aerodynamic coefficients, and more precisely the pitch damping coefficient C_{mq} of re-entry space vehicle, is presented. Taking into account a polynomial description of the previous mentioned coefficient, this approach is based on system identification techniques. Thus, several steps are required like the textit{a priori} identifiability study, followed by the estimation of the parameters in question and the model falsification based on real experimental free flight measurements.This model-based method improves the accuracy of the estimated coefficient.