Vehicle braking control systems

What is claimed is: 1. A vehicle braking control system comprising: two front wheels of a vehicle; two front brakes configured to inhibit rotation of the two front wheels in response to brake pressure applied to the front brakes; two rear wheels of the vehicle; two rear brakes configured to inhibit rotation of the two rear wheels in response to brake pressure applied to the rear brakes; a front vehicle microphone positioned closer to the front wheels than the rear wheels; a rear vehicle microphone positioned closer to the rear wheels than the front wheels; an electronic brake pressure control module configured to control an amount of brake pressure applied to the front brakes and an amount of brake pressure applied to the rear brakes; and a vehicle control module configured to: detect, via the front vehicle microphone and the rear vehicle microphone, a brake noise value in response to brake pressure applied to the front brakes and the rear brakes; determine whether the brake noise value exceeds a specified brake noise threshold; in response to the brake noise value exceeding the specified brake noise threshold, identify which of the front brakes and the rear brakes are generating a greater noise value by, determining a magnitude of a front brake noise signal detected via the front vehicle microphone, determining a magnitude of a rear brake noise signal detected via the rear vehicle microphone, identifying the front brakes as generating the greater noise value in response to the magnitude of the front brake noise signal being greater than the magnitude of the rear brake noise signal, and identifying the rear brakes as generating the greater noise value in response to the magnitude of the front brake noise signal being less than the magnitude of the rear brake noise signal; and reduce, via the electronic brake pressure control module, brake pressure applied to the identified one of the front brakes and the rear brakes. 2. The vehicle braking control system of claim 1 , wherein the vehicle control module is configured to: increase brake pressure applied to the rear brakes in response to identifying the front brakes as generating the greater noise value; and increase brake pressure applied to the front brakes in response to identifying the rear brakes as generating the greater noise value. 3. The vehicle braking control system of claim 1 , further comprising at least one motor configured to drive rotation of at least one of the front wheels and the rear wheels, wherein the vehicle control module is configured to apply motor braking to the at least one motor, or increase motor braking, in response to the brake noise value exceeding the specified brake noise threshold. 4. The vehicle braking control system of claim 1 , further comprising at least one regenerative braking module coupled with at least one of the front wheels and the rear wheels, wherein the vehicle control module is configured to initiate regenerative braking of the regenerative braking module, or increase regenerative braking, in response to the brake noise value exceeding the specified brake noise threshold. 5. The vehicle braking control system of claim 1 , wherein the front vehicle microphone comprises an active noise cancelling (ANC) microphone in an interior of the vehicle. 6. The vehicle braking control system of claim 1 , wherein the specified brake noise threshold includes a brake noise signal having a frequency in a range of 100 hertz to twenty kilohertz. 7. The vehicle braking control system of claim 1 , wherein the front brakes and the rear brakes each comprise at least one of a disc brake and a drum brake. 8. A vehicle braking control system comprising: at least one vehicle microphone; two front wheels of a vehicle; two front brakes configured to inhibit rotation of the two front wheels in response to brake pressure applied to the front brakes; two rear wheels of the vehicle; two rear brakes configured to inhibit rotation of the two rear wheels in response to brake pressure applied to the rear brakes; an electronic brake pressure control module configured to control an amount of brake pressure applied to the front brakes and an amount of pressure applied to the rear brakes; and a vehicle control module configured to: detect, via the at least one vehicle microphone, a brake noise value in response to brake pressure applied to the front brakes and the rear brakes; determine whether the brake noise value exceeds a specified brake noise threshold; in response to the brake noise value exceeding the specified brake noise threshold, identify which of the front brakes and the rear brakes are generating a greater noise value; reduce, via the electronic brake pressure control module, brake pressure applied to the identified one of the front brakes and the rear brakes; and determine a minimum brake pressure value associated with generation of the brake noise value exceeding the specified brake noise threshold. 9. The vehicle braking control system of claim 8 , wherein the vehicle control module is configured to reduce brake pressure applied to the identified one of the front brakes and the rear brakes to below the minimum brake pressure value, in response to the brake noise value exceeding the specified brake noise threshold. 10. A method of controlling vehicle braking, the method comprising: detecting, via at least one vehicle microphone, a brake noise value in response to brake pressure applied to front brakes of a vehicle and rear brakes of the vehicle; determining whether the brake noise value exceeds a specified brake noise threshold; in response to the brake noise value exceeding the specified brake noise threshold, identifying which of the front brakes and the rear brakes are generating a greater noise value; reducing brake pressure applied to the identified one of the front brakes and the rear brakes via an electronic brake pressure control module configured to control an amount of brake pressure applied to the front brakes and an amount of brake pressure applied to the rear brakes; and determining a minimum brake pressure value associated with generation of the brake noise value exceeding the specified brake noise threshold. 11. The method of claim 10 , further comprising: increasing brake pressure applied to the rear brakes in response to identifying the front brakes as generating the greater noise value; and increasing brake pressure applied to the front brakes in response to identifying the rear brakes as generating the greater noise value. 12. The method of claim 10 , wherein: the vehicle includes at least one motor configured to drive rotation of at least one of front wheels of the vehicle and rear wheels of the vehicle; and the method further comprises applying motor braking to the at least one motor, or increasing motor braking, in response to the brake noise value exceeding the specified brake noise threshold. 13. The method of claim 10 , wherein: the vehicle includes at least one regenerative braking module coupled with at least one of front wheels of the vehicle and rear wheels of the vehicle; and the method further comprises initiating regenerative braking of the regenerative braking module, or increasing regenerative braking, in response to the brake noise value exceeding the specified brake noise threshold. 14. The method of claim 10 , wherein the vehicle microphone comprises an active noise cancelling (ANC) microphone in an interior of the vehicle. 15. The method of claim 10 , wherein: the vehicle microphone is a front vehicle microphone positioned closer to front whe