We analyse the monthly sunspot group (SG) data for Solar Cycles C8 - C23 and calculate the average latitude of the drift path for the northern and southern hemisphere of the Sun. We find that exponential function fits slightly better than the second-order polynomial to the average drift of the SGs. The drift velocities are are 0.30 and 0.27 degrees/month (meridional speed approximately 1.41 and 1.27 m/s) in the beginning and 0.071 and 0.069 degrees/month (approximately 0.33 and 0.32 m/s) at the end of the average cycle for northern and southern hemisphere, respectively. We do also bi-linear fits (first-order polynomial fits in two fractions), because they tell us the crossing point were the drift velocity changes the most. This crossing point for the Cycles C8 - C23 is at 50 months and 15.4 degrees of latitude for the northern hemisphere and 54 months and -14.4 degrees for the southern hemisphere. The drift velocities calculated from the slopes of the bi-linear fits are 0.233 and 0.216 degrees/month (approximately 1.10 and 1.02 m/s) before the crossing point and 0.118 and 0.101 degrees/month (approximately 0.55 and 0.47 m/s) after the crossing point. We find a slight dependence of the migration on the strength of the cycle such that the drift path of the stronger cycles follow slightly higher latitudes than those of the weaker cycles. The areas of the sunspot groups affect also slightly to the drift path such that large area SGs have path at somewhat lower latitudes in the ascending phase and higher latitudes in the descending phase of the cycle than the smaller area SGs.