Electrical power conservation during braking for autonomous or assisted driving vehicles

What is claimed is: 1. A computer-implemented method of reducing electrical current in vehicle braking for power conservation, the method comprising: applying a first electrical current to a braking system of a vehicle after the vehicle has ceased movement on a slope, the first electrical current preventing the vehicle from moving on the slope; determining a first braking pressure based on the first electrical current and the slope; determining a second electrical current based on the first braking pressure and a braking hysteresis, wherein the second electrical current is lower than the first electrical current; and reducing the first electrical current to the second electrical current in the braking system. 2. The computer-implemented method of claim 1 , further comprising: determining that the vehicle is on the slope based on at least one of map information, sensor information, or feedback from the braking system. 3. The computer-implemented method of claim 1 , wherein determining the second electrical current based on the first braking pressure and the braking hysteresis comprises: ascertaining the braking hysteresis in a look-up table constructed of values of braking pressures and torques measured at a plurality of brakes of the braking system, wherein the values of the braking pressures correspond to variable electrical current inputs to the braking system; identifying a required torque value in the look-up table based on the first electrical current; and determining the second electrical current in the look-up table based on the required torque value. 4. The computer-implemented method of claim 3 , wherein the values of braking pressures and torques measured are scaled by a safety factor in the look-up table. 5. The computer-implemented method of claim 1 , wherein determining the second electrical current based on the first braking pressure and the braking hysteresis comprises: monitoring the first braking pressure in the braking system as the first electrical current is applied; recording a first braking torque when the vehicle is ceasing movement on the slope; decreasing the first braking pressure for the vehicle to resume travel; monitoring a second braking pressure in the braking system and recording a second braking torque when the vehicle starts moving; validating or updating the braking hysteresis based on the first braking pressure, the first braking torque, the second braking pressure, and the second braking torque; and determining the second electrical current based on the validated or updated braking hysteresis and the second braking torque. 6. The computer-implemented method of claim 1 , wherein determining the second electrical current based on the first braking pressure and the braking hysteresis comprises: measuring an output torque of an engine or a motor of the vehicle; measuring a gradient of the slope; computing a required braking torque based on the output torque and the gradient; and determining the second electrical current based on the required braking torque and the braking hysteresis. 7. The computer-implemented method of claim 1 , further comprising at least one of: preventing a voltage of a power system of the vehicle from dropping below a threshold value; or storing electrical energy saved from reducing the first electrical current to the second electrical current for a high current outburst. 8. A computational device comprising: a memory; and a processing device coupled to the memory, the processing device and the memory configured to: apply a first electrical current to a braking system of a vehicle after the vehicle has ceased movement on a slope, the first electrical current preventing the vehicle from moving on the slope; determine a first braking pressure based on the first electrical current and the slope; determine a second electrical current based on the first braking pressure and a braking hysteresis, wherein the second electrical current is lower than the first electrical current; and reduce the first electrical current to the second electrical current in the braking system. 9. The computational device of claim 8 , wherein the processing device and the memory are further configured to: determine that the vehicle is on the slope based on at least one of map information, sensor information, or feedback from the braking system. 10. The computational device of claim 8 , wherein the processing device and the memory are to determine the second electrical current based on the first braking pressure and the braking hysteresis by: ascertaining the braking hysteresis in a look-up table constructed of values of braking pressures and torques measured at a plurality of brakes of the braking system, wherein the values of the braking pressures correspond to variable electrical current inputs to the braking system; identifying a required torque value in the look-up table based on the first electrical current; and determining the second electrical current in the look-up table based on the required torque value. 11. The computational device of claim 10 , wherein the values of braking pressures and torques measured are scaled by a safety factor in the look-up table. 12. The computational device of claim 8 , wherein the processing device and the memory are to determine the second electrical current based on the first braking pressure and the braking hysteresis by: monitoring the first braking pressure in the braking system as the first electrical current is applied; recording a first braking torque when the vehicle is ceasing movement on the slope; decreasing the first braking pressure for the vehicle to resume travel; monitoring a second braking pressure in the braking system and recording a second braking torque when the vehicle starts moving; validating or updating the braking hysteresis based on the first braking pressure, the first braking torque, the second braking pressure, and the second braking torque; and determining the second electrical current based on the validated or updated braking hysteresis and the second braking torque. 13. The computational device of claim 8 , wherein the processing device and the memory are to determine the second electrical current based on the first braking pressure and the braking hysteresis by: measuring an output torque of an engine or a motor of the vehicle; measuring a gradient of the slope; computing a required braking torque based on the output torque and the gradient; and determining the second electrical current based on the required braking torque and the braking hysteresis. 14. The computational device of claim 8 , wherein the processing device and the memory are further configured to perform at least one of: preventing a voltage of a power system of the vehicle from dropping below a threshold value; or storing electrical energy saved from reducing the first electrical current to the second electrical current for a high current outburst. 15. A non-transitory computer-readable storage medium having instructions stored thereon that, when executed by a processing device, cause the processing device to: apply a first electrical current to a braking system of a vehicle after the vehicle has ceased movement on a slope, the first electrical current preventing the vehicle from moving on the slope; determine a first braking pressure based on the first electrical current and the slope; determine a second electrical current based on the first braking pressure and a braking hysteresis, wherein the second electrical current is lower than the first electrical current; and reduce the f