Systems and methods for adaptive braking using brake wear data

What is claimed is: 1. An adaptive control system of a vehicle that includes both regenerative brakes and friction brakes, comprising: one or more processors; a memory communicably coupled to the one or more processors and storing: a brake wear module including instructions that when executed by the one or more processors cause the one or more processors to identify whether brake wear of at least one of the friction brakes satisfies a threshold for modifying a deceleration pattern of the vehicle, wherein the deceleration pattern indicates how the regenerative brakes and the friction brakes are engaged to decelerate the vehicle individually for each wheel of the vehicle, and wherein the deceleration pattern indicates at least an amount of simultaneous blending between using the friction brakes and using the regenerative brakes to decelerate the vehicle; and a deceleration module including instructions that when executed by the one or more processors cause the one or more processors to adjust, prior to receiving a control input to activate braking in the vehicle, the deceleration pattern according to at least the brake wear of the at least one of the friction brakes to transition braking from the at least one of the friction brakes to the regenerative brakes, and wherein the deceleration module includes instructions to control the vehicle to decelerate according to the deceleration pattern upon receiving a control input. 2. The adaptive control system of claim 1 , wherein the brake wear module further includes instructions to determine the brake wear associated with the friction brakes of the vehicle including instructions to compute a degree of wear for at least brakes pads of the friction brakes after each braking event in the vehicle, wherein the deceleration module includes instructions to adjust the deceleration pattern to cause at least one of the regenerative brakes to be activated at least partially in place of the at least one of the friction brakes to compensate for the brake wear, and wherein the control input is a signal generated from depressing a brake pedal or from releasing an accelerator pedal of the vehicle. 3. The adaptive control system of claim 2 , wherein the brake wear module includes instructions to determine the brake wear for the at least one friction brake including instructions to: in response to detecting a braking event where the friction brakes are engaged to decelerate the vehicle, collect braking data that includes at least a brake stroke applied to the brake pedal of the vehicle, analyze the braking event as a function of at least the braking data to generate an intermediate brake wear that identifies wear caused by the braking event for each of the friction brakes, and generate the degree of wear by accumulating the intermediate brake wear with a previous degree of wear that is from prior to the braking event for each of the friction brakes. 4. The adaptive control system of claim 3 , wherein the brake wear module includes instructions to collect the braking data including instructions to receive a control signal from a brake wear sensor that indicates a thickness of a brake pad for each of the friction brakes, receive a signal identifying an ambient air temperature, receiving a signal identifying the brake stroke and a duration of the brake stroke, and retrieving an age of the friction brakes from a register, and wherein the brake wear module includes instructions to analyze the braking event including instructions to input the braking data to a lookup table to retrieve an estimated value for the intermediate brake wear for the braking event. 5. The adaptive control system of claim 3 , wherein the brake wear module includes instructions to provide an indication according to the intermediate brake wear that identifies to a driver an effect of the braking event on brake life of the friction brakes. 6. The adaptive control system of claim 1 , wherein the deceleration pattern further indicates a lower threshold speed of the vehicle at which the regenerative brakes are disengaged and the friction brakes are used to decelerate the vehicle, and an extent to which the regenerative brakes are engaged when coasting, and wherein the deceleration module includes instructions to adjust the deceleration pattern including instructions to adjust a coaching system of the vehicle according to the deceleration pattern to provide indications to a driver to permit the vehicle to coast and use the regenerative brakes in place of applying the friction brakes. 7. The adaptive control system of claim 1 , wherein the deceleration module includes instructions to adjust the deceleration pattern including instructions to engage the regenerative brakes according to an amount that correlates with the brake wear and a decrease in an effectiveness of the friction brakes caused by the brake wear to slow the vehicle using the regenerative brakes instead of the friction brakes, wherein the deceleration module includes instructions to adjust the deceleration pattern including instructions to modify one or more of (i) an amount by which the regenerative brakes are engaged during coasting of the vehicle, (ii) an amount by which the regenerative brakes are applied during the blending, and (iii) an amount by which the friction brakes are applied separately from the regenerative brakes, and wherein the deceleration module includes the instructions to control the vehicle to brake according to the deceleration pattern including instructions to engage the regenerative brakes for a duration and a degree specified by the deceleration pattern. 8. The adaptive control system of claim 1 , wherein the brake wear of the at least one of the friction brakes satisfies the threshold when the brake wear affects an ability of the at least one of the friction brakes to decelerate the vehicle, wherein the brake wear module includes the instructions to determine the brake wear including instructions to individually identify the brake wear separately for each of the friction brakes, and wherein the deceleration module includes instructions to adjust the deceleration pattern individually for each of the friction brakes and the regenerative brakes. 9. The adaptive control system of claim 1 , wherein the vehicle is a hybrid electric vehicle, and wherein the friction brakes are disc brakes each comprising a brake pad in contact with a brake rotor when actuated to decelerate the vehicle. 10. A non-transitory computer-readable medium storing instructions that when executed by one or more processors cause the one or more processors to: identify, for a vehicle that includes both friction brakes and regenerative brakes, whether brake wear of at least one of the friction brakes satisfies a threshold for modifying a deceleration pattern of the vehicle, wherein the deceleration pattern indicates how the regenerative brakes and the friction brakes are engaged to decelerate the vehicle individually for each wheel of the vehicle, and wherein the deceleration pattern indicates at least an amount of simultaneous blending between using the friction brakes and using the regenerative brakes to decelerate the vehicle; adjust, prior to receiving a control input to activate braking in the vehicle, the deceleration pattern according to at least the brake wear of the at least one of the friction brakes to transition braking from the at least one of the friction brakes to the regenerative brakes; and control the vehicle to decelerate according to the deceleration pattern upon receiving a control input. 11. The non-transitory computer-readable medium of claim 10 , further comprising instructions to determine the brake wear associated wi