This paper considers driving vehicles on roads with changed surface conditions which make the tire forces, and in turn the vehicle dynamics vary significantly. Therefore, this study presents a real-time estimation algorithm for the longitudinal velocity of the vehicle, and the normal force, lateral force, and road friction coefficient of each wheel. The proposed estimator scheme takes into account uncertain characteristics of the tire model and presents a method to modify the tire model by an additional parameter; then the result of the estimation is enhanced by techniques of normalization and projection. The estimated road friction coefficient and lateral tire force are fed back to the vehicle control system using optimum tire force distribution method for better performance. Finally, simulations are carried out to test the performance of the proposed estimator under suddenly changed road conditions. In addition, it is verified by simulations that the optimum tire force distribution control system incorporated with the proposed estimation algorithm is able to follow the reference trajectory in the event of suddenly dropped road friction coefficient.