System and method for brake system verification

What is claimed is: 1. A control system, comprising: an electric drive system associated with a rear set of wheels of a vehicle; one or more processors configured to control the electric drive system to selectively provide electric motive power to the rear set of wheels to propel the vehicle and electric retarding to slow the vehicle; and a friction brake system having a first friction brake unit associated with the rear set of wheels and a second friction brake unit associated with a front set of wheels of the vehicle; wherein the one or more processors are further configured to determine a functionality of the second friction brake unit, for a friction brake application to the front set of wheels, independent of operation of the first friction brake unit, and to control at least one vehicle system based on the functionality of the second friction brake unit that is determined; and wherein the one or more processors are configured, for determining the functionality of the second friction brake unit, to automatically control the second friction brake unit to apply at least one designated friction braking force to the front set of wheels, to control the electric drive system to simultaneously apply at least one designated torque to the rear set of wheels, and to monitor any resulting movement of the vehicle. 2. The control system of claim 1 , wherein the at least one designated friction braking force is a full application of the second friction brake unit, and the at least one designated torque is a minimal torque required to cause the resulting movement notwithstanding the full application of the second friction brake unit. 3. The control system of claim 1 , wherein the at least one designated friction braking force comprises plural different sequentially applied friction braking forces, and the at least one designated torque comprises plural different torques each applied simultaneously with a respective one of the friction braking forces. 4. The control system of claim 3 , wherein the plural different sequentially applied friction braking forces and the plural different torques are linear. 5. The control system of claim 1 , wherein the one or more processors are configured to automatically control the second friction brake unit to apply the at least one designated friction braking force to the front set of wheels without any application of the electric retarding to the rear set of wheels and without any application of friction braking by the first friction brake unit to the rear set of wheels. 6. The control system of claim 5 , wherein a gross vehicle operating weight of the vehicle is at least 250 metric tons. 7. The control system of claim 5 , wherein the at least one vehicle system that the one or more processors are configured to control based on the functionality of the second friction brake unit that is determined comprises the friction brake system and the electric drive system, for a blended braking application of the electric retarding applied to the rear set of wheels and the friction brake application to the front set of wheels during movement of the vehicle on an inclined grade, without any application of friction braking by the first friction brake unit to the rear set of wheels. 8. A control system, comprising: an electric drive system associated with a rear set of wheels of a vehicle; one or more processors configured to control the electric drive system to selectively provide electric motive power to the rear set of wheels to propel the vehicle and electric retarding to slow the vehicle; and a friction brake system having a first friction brake unit associated with the rear set of wheels and a second friction brake unit associated with a front set of wheels of the vehicle; wherein the one or more processors are further configured to determine a functionality of the second friction brake unit, for a friction brake application to the front set of wheels, independent of operation of the first friction brake unit, and to control at least one vehicle system based on the functionality of the second friction brake unit that is determined; and wherein a gross vehicle operating weight of the vehicle is at least 250 metric tons. 9. The control system of claim 8 , wherein the at least one vehicle system that the one or more processors are configured to control based on the functionality of the second friction brake unit that is determined comprises the friction brake system and the electric drive system, for a blended braking application of the electric retarding applied to the rear set of wheels and the friction brake application to the front set of wheels during movement of the vehicle on an inclined grade, without any application of friction braking by the first friction brake unit to the rear set of wheels. 10. A control system, comprising: an electric drive system associated with a first set of wheels of a vehicle; one or more processors configured to control the electric drive system to selectively provide electric motive power to the first set of wheels to propel the vehicle and electric retarding to slow the vehicle; and a friction brake system having a first friction brake unit associated with the first set of wheels and a second friction brake unit associated with a second set of wheels of the vehicle; wherein the one or more processors are further configured to determine a functionality of the second friction brake unit, for a friction brake application to the second set of wheels, independent of operation of the first friction brake unit, and to control at least one vehicle system based on the functionality of the second friction brake unit that is determined; and wherein the at least one vehicle system that the one or more processors are configured to control based on the functionality of the second friction brake unit that is determined comprises the friction brake system and the electric drive system, for a blended braking application of the electric retarding applied to the first set of wheels and the friction brake application to the second set of wheels during movement of the vehicle on an inclined grade, without any application of friction braking by the first friction brake unit to the first set of wheels. 11. A method, comprising: controlling, with one or more processors, an electric drive system of a vehicle to selectively provide electric motive power to a first set of wheels of the vehicle to propel the vehicle and electric retarding to slow the vehicle; determining, with the one or more processors, a functionality of a second friction brake unit of the vehicle, for a friction brake application to a second set of wheels of the vehicle, independent of operation of a first friction brake unit of the vehicle, the vehicle having a friction brake system with the first friction brake unit associated with the first set of wheels and the second friction brake unit associated with the second set of wheels; and controlling at least one vehicle system based on the functionality of the second friction brake unit that is determined; wherein the first set of wheels comprises a rear set of wheels of the vehicle and the second set of wheels comprises a front set of wheels of the vehicle; and wherein determining the functionality of the second friction brake unit comprises automatically controlling the second friction brake unit to apply at least one designated friction braking force to the front set of wheels, controlling the electric drive system to simultaneously apply at least one designated torque to the rear set of wheels, and monitoring any resulting movement of the vehicle. 12. The method of claim 11 , wherein the at least one designated friction