Systems and methods for speed control of wheels of a vehicle

What is claimed is: 1. A method for speed control of wheels of a vehicle, the method comprising: applying an increasing torque to each of the wheels in an open-loop mode; determining a target wheel speed for each of the wheels based on an accelerator pedal input; identifying a slippage for one or more of the wheels; and in response to the identifying the slippage for the one or more of the wheels, entering a closed-loop mode comprising: monitoring wheel speed of each of the one or more of the wheels; determining, for each of the one or more of the wheels, a difference based on the monitored wheel speed and the target wheel speed; and adjusting a torque to each of the one of more of the wheels based on the respective difference to achieve the target wheel speed. 2. The method of claim 1 , wherein one or more of the target wheel speeds cause the vehicle to make a zero radius turn. 3. The method of claim 1 , wherein each respective motor comprises an electric motor and wherein the monitoring wheel speed of each of the one or more of the wheels, comprises: monitoring signals from sensors coupled to motor shafts of the electric motors, wherein each sensor indicates an amount of rotation of a respective motor shaft; and calculating each wheel speed based on a respective signal of the monitored signals. 4. The method of claim 1 , wherein: each of the wheels is connected to a respective motor configured to provide the respective torque; each of the respective motors comprises an independent electric motor with a motor shaft; and each of the motor shafts comprises a sensor, the method further comprising: determining one or more signals from each of the sensors, wherein the monitoring wheel speed for each of the one or more of the wheels is based at least on the one or more signals. 5. The method of claim 1 , wherein the difference for each of the one or more of the wheels based on the monitored wheel speed and the target wheel speed indicates the monitored wheel speed exceeds the target wheel speed, and wherein adjusting the torque to each of the one or more of the wheels comprises adjusting the torque in an opposite direction as each of the one or more of the wheels is spinning to reduce the monitored wheel speed. 6. The method of claim 1 , wherein each of the wheels is connected to a respective motor configured to provide the respective torque with a reaction speed of less than 100 microseconds. 7. The method of claim 1 , wherein the closed-loop mode further comprises: detecting one or more declining surfaces associated with the wheels; and determining a maximum wheel speed less than 30 miles per hour based on the one or more declining surfaces. 8. The method of claim 1 , wherein the adjusting applying the increasing torque to each of the wheels in the open-loop mode comprises: providing an open-loop forward torque to wheels on a first side of the vehicle; and providing an open-loop backward torque to wheels on a second side of the vehicle, wherein the first side is one of a left side and a right side of the vehicle, wherein the second side is one of the left side and the right side of the vehicle, and wherein the second side is opposite to the first side. 9. The method of claim 1 , the method further comprising: determining a gap between one or more of the wheels and one or more ground surfaces; and automatically entering the closed-loop mode in response to the determining the gap. 10. The method of claim 1 , wherein the wheels comprise four wheels and wherein the vehicle comprises four electric motors, each of the four electric motors configured to provide the torque to a respective one of the four wheels. 11. The method of claim 1 , further comprising initiating a maximum wheel target speed in response to the identifying the slippage for the one or more of the wheels, the maximum wheel target speed being 30 miles per hour or less, wherein the target wheel speed is proportional to an accelerator pedal input and wherein the maximum wheel target speed corresponds to a maximum accelerator pedal input. 12. The method of claim 11 , wherein a range of 0-100% of the accelerator pedal input corresponds to a wheel target speed range of zero miles per hour to the maximum wheel target speed. 13. A system for speed control of wheels of a vehicle, the system comprising: input circuitry configured to receive an accelerator pedal input; and control circuitry configured to: apply an increasing torque to each of the wheels in an open-loop mode based on the accelerator pedal input; determine a target wheel speed for each of the wheels based on the accelerator pedal input; identify a slippage for one or more of the wheels; and in response to identifying the slippage for the one or more of the wheels, entering a closed-loop mode wherein the control circuitry is further configured to: monitor wheel speed of each of the one or more of the wheels; determine, for each of the one or more of the wheels, a difference based on the monitored wheel speed and the target wheel speed; and adjust a torque to each of the one or more of the wheels based on the respective difference to achieve the target wheel speed. 14. The system of claim 13 , wherein one or more of the target wheel speeds cause the vehicle to make a zero radius turn. 15. The system of claim 13 , wherein each respective motor comprises an electric motor and wherein the control circuitry is configured to monitor wheel speed of each of the one or more of the wheels by: monitoring signals from sensors coupled to motor shafts of the electric motors, wherein each sensor indicates an amount of rotation of a respective motor shaft, and calculating each wheel speed based on a respective signal of the monitored signals. 16. The system of claim 13 , wherein: each of the wheels is connected to a respective motor configured to provide the respective torque; each of the respective motors comprises an independent electric motor with a motor shaft; and each of the motor shafts comprises a sensor, the control circuitry further configured to: determine one or more signals from each of the sensors, wherein monitoring wheel speed for each of the one or more of the wheels is based at least on the one or more signals. 17. The system of claim 13 , wherein the difference for each of the one or more of the wheels based on the monitored wheel speed and the target wheel speed indicates the monitored wheel speed exceeds the target wheel speed, and wherein adjusting the torque to each of the one or more of the wheels comprises adjusting the torque in an opposite direction as each of the one or more of the wheels is spinning to reduce the monitored wheel speed. 18. The system of claim 13 , wherein to apply the increasing torque to each of the wheels in the open-loop mode, the control circuitry is configured to: provide an open-loop forward torque to wheels on a first side of the vehicle; and provide an open-loop backward torque to wheels on a second side of the vehicle, and wherein the first side is one of a left side and a right side of the vehicle, wherein the second side is one of the left side and the right side of the vehicle, and wherein the second side is opposite to the first side. 19. A vehicle comprising: a plurality of electric motors, each comprising a motor shaft coupled to a respective one of a plurality of wheels of the vehicle; an accelerator pedal configured to provide an accelerator pedal input; power electronics configured to output power to eac