Systems and methods for providing towing braking assistance during in-flight charging of electrified vehicles

What is claimed is: 1. An electrified vehicle, comprising: a drive wheel; a braking system adapted for decelerating the drive wheel; and a control module programmed to control the braking system for applying a braking torque output for decelerating the drive wheel in response to receiving a braking assistance request signal during a towing event, wherein the control module is further programmed to calculate the braking torque output necessary for achieving a target deceleration rate indicated by the braking assistance request signal and communicate a braking command signal to the braking system for commanding the braking system to apply the braking torque output, wherein the braking assistance request signal includes braking-related data that includes at least a travel distance of a brake pedal of the braking system, and further wherein the braking torque output is configured to mimic a deceleration rate of a second electrified vehicle that is coupled to the electrified vehicle during the towing event. 2. The electrified vehicle as recited in claim 1 , wherein the braking assistance request signal is received from the second electrified vehicle, and comprising a telecommunications module configured for establishing bidirectional communications between the electrified vehicle and the second electrified vehicle. 3. The electrified vehicle as recited in claim 1 , wherein the control module is a component of the electrified vehicle being towed during the towing event. 4. The electrified vehicle as recited in claim 1 , wherein the braking assistance request signal includes braking-related information received from the second electrified vehicle that is coupled to the electrified vehicle during the towing event. 5. The electrified vehicle as recited in claim 1 , comprising a bidirectional power transfer system configured to enable the bidirectional transfer of power between a first traction battery pack of the electrified vehicle and a second traction battery pack of the second electrified vehicle. 6. The electrified vehicle as recited in claim 1 , wherein the control module is further programmed to command the braking system to provide a maximum braking torque output until a stability event of the second electrified vehicle subsides. 7. The electrified vehicle as recited in claim 1 , wherein the braking system is an electronic brake booster (EBB) system that includes a brake pedal, an electric actuator, a braking device, and an electronic control unit that are operably coupled to one another for applying the braking torque output. 8. The electrified vehicle as recited in claim 1 , wherein the braking-related data includes a pressure applied to the brake pedal and a wheel speed or vehicle speed of the second electrified vehicle. 9. The electrified vehicle as recited in claim 1 , wherein the control module is programmed to command that manual braking controls of the electrified vehicle be disabled during the towing event. 10. The electrified vehicle as recited in claim 1 , wherein the braking torque output is configured to compensate for a brake fade condition of the second electrified vehicle. 11. The electrified vehicle as recited in claim 1 , wherein the braking torque output is configured to compensate for a vehicle stability condition of the second electrified vehicle.