Method for managing wheel slip in a vehicle

What is claimed is: 1. A method of managing wheel slip in a vehicle, the vehicle comprising: a frame; an internal combustion engine connected to the frame; front and rear wheels operatively connected to the engine; a throttle valve for controlling a supply of air to the engine; a steering assembly operatively connected to at least the front wheels for steering the vehicle; and an unassisted continuously variable transmission (CVT) operatively connecting the front wheels and the rear wheels to the engine; the method comprising: determining a sensed deceleration of the vehicle resulting from a drop in a position of the throttle valve reducing the supply of air to the engine; comparing the sensed deceleration of the vehicle to a threshold deceleration; and increasing a torque output of the engine from a current engine torque output value to an increased engine torque output value when the sensed deceleration of the vehicle is greater than the threshold deceleration. 2. The method of claim 1 , wherein increasing the torque output of the engine from the current engine torque output value to the increased engine torque output value comprises increasing the torque output of the engine from a negative engine torque output value to a zero or near zero engine torque output value. 3. The method of claim 1 , further comprising: maintaining the torque output of the engine approximately close to the increased engine torque output value until the sensed deceleration of the vehicle is less than the threshold deceleration of the vehicle. 4. The method of claim 1 , wherein increasing the torque output of the engine comprises: moving the throttle valve from a current position to an increased opening position. 5. The method of claim 1 , further comprising determining a speed parameter of the vehicle, the speed parameter of the vehicle being one of: a sensed speed of the vehicle; and a rotational speed representative of a rotational speed of at least one of the front and rear wheels, wherein the threshold deceleration is a predetermined threshold deceleration associated with the speed parameter of the vehicle. 6. The method of claim 5 , wherein: the speed parameter of the vehicle is the sensed speed of the vehicle; and determining the speed parameter of the vehicle comprises: sensing a rotational speed representative of the rotational speed of at least one of the front and rear wheels; and calculating the sensed speed of the vehicle based at least in part on the rotational speed representative of the rotational speed of the at least one of the front and rear wheels. 7. The method of claim 6 , wherein calculating the sensed speed of the vehicle is further based on a steering angle sensed by a steering angle sensor of the steering assembly. 8. The method of claim 5 , wherein the predetermined threshold deceleration is a maximum deceleration of the vehicle associated with a throttle request of the vehicle being reduced to null at the determined speed parameter of the vehicle while the vehicle travels on a non-slip surface. 9. The method of claim 1 , wherein the threshold deceleration is an actual deceleration of the vehicle sensed by an acceleration sensor of the vehicle. 10. The method of claim 1 , wherein determining the sensed deceleration of the vehicle comprises: sensing a rotational speed representative of a rotational speed of at least one of the front and rear wheels; and calculating the sensed deceleration of vehicle based on a reduction of the rotational speed representative of the rotational speed of the at least one of the front and rear wheels. 11. The method of claim 1 , further comprising determining a brake operation parameter of the vehicle indicative of actuation of brakes of the vehicle, wherein: the torque output of the engine is increased from the current engine torque output value to the increased engine torque output value when: the sensed deceleration of the vehicle is greater than the threshold deceleration; and the brake operation parameter of the vehicle is less than a predetermined threshold brake operation parameter. 12. The method of claim 11 , wherein: the brake operation parameter is a pressure measured within a brake fluid circuit of the vehicle; and the predetermined threshold brake operation parameter is a predetermined threshold pressure. 13. A vehicle comprising: an electronic control unit (ECU) comprising: a non-transitory computer-readable medium; and a processor configured to perform the method of claim 1 ; the frame; a seat connected to the frame; the internal combustion engine connected to the frame; the throttle valve for controlling a supply of air to the engine; the front and rear wheels operatively connected to the engine; the unassisted CVT operatively connecting the front and rear wheels to the engine, the CVT comprising: a drive pulley operatively connected to the engine; a driven pulley operatively connected to the front and rear wheels; and a drive belt wrapped around the drive pulley and the driven pulley; the steering assembly operatively connected to at least the front wheels for steering the vehicle; and a plurality of sensors for sensing parameters related to operation of the vehicle, the ECU communicating with the plurality of sensors. 14. A method of managing wheel slip in a vehicle, the vehicle comprising: a frame; an internal combustion engine connected to the frame; front and rear wheels operatively connected to the engine; a throttle valve for controlling a supply of air to the engine; a steering assembly operatively connected to at least the front wheels for steering the vehicle; an unassisted continuously variable transmission (CVT) operatively connecting at least the rear wheels to the engine; and a drive mode switch for selectively setting the vehicle in one of: a two-wheel drive mode in which the front wheels or the rear wheels are driven by the engine; and a four-wheel drive mode in which the front wheels and the rear wheels are driven by the engine; the method comprising: determining if at least one of the front wheels or the rear wheels is slipping as a result of a drop in a position of the throttle valve reducing the supply of air to the engine; and increasing a torque output of the engine when the at least one of the front wheels or the rear wheels is determined to be slipping, such that: when the vehicle is in the two-wheel drive mode, the torque output of the engine is increased from a current engine torque output value to a first engine torque output value; and when the vehicle is in the four-wheel drive mode, the torque output of the engine is increased from the current engine torque output value to a second engine torque output value, the second engine torque output value being less than the first engine torque output value. 15. The method of claim 14 , wherein: the first engine torque output value is greater than zero; and the second engine torque output value is near zero or equal to zero. 16. The method of claim 14 , further comprising: after increasing the torque output of the engine, maintaining the first engine torque output value or the second engine torque output value such that: when the vehicle is in the two-wheel drive mode, the first engine torque output value is maintained until a difference between a rotational speed representative of a rotational speed of the front wheels and a rotational speed representative of a rotational speed of the rear wheels is less than approximately 30 rpm; and when the vehicle is in the four-wheel dr