Four-wheel off-road vehicle having an anti-lock braking system assembly

What is claimed is: 1. An off-road vehicle comprising: a frame; a motor connected to the frame; a left front wheel connected to the frame via a left front suspension assembly; a right front wheel connected to the frame via a right front suspension assembly; a left rear wheel connected to the frame via a left rear suspension assembly; a right rear wheel connected to the frame via a right rear suspension assembly; a rear spool gear operatively connecting the motor to the left and right rear wheels; a left rear half shaft operatively connecting the left rear wheel to the rear spool gear; a right rear half shaft operatively connecting the right rear wheel to the rear spool gear; a left front brake assembly operatively connected to the left front wheel; a right front brake assembly operatively connected to the right front wheel; a left front speed sensor adapted for sensing a speed of the left front wheel; a right front speed sensor adapted for sensing a speed of the right front wheel; a single rear brake assembly operatively connected to the left and right rear wheels; a single rear speed sensor adapted for sensing a speed of the left and right rear wheels; and a first user actuated braking input device and a second user braking input device, each of the first and second braking input devices being adapted for independently or jointly providing a braking command; wherein: the left and right rear suspension assemblies respectively comprise left and right rear shock absorbers, the single rear speed sensor being mounted laterally between one of the left and right rear shock absorbers and the rear spool gear; the left and right rear suspension assemblies respectively further comprise left and right rear swing arms; each of the left and right swing arms has one end pivoting about a generally laterally extending axis to the frame and an opposite end on which a corresponding one of the left and right shock absorbers and a corresponding one of the left and right rear wheels are supported; each of the left and right rear suspension assemblies is movable between an uncompressed position and a compressed position; a rotation axis of each one of the left and right rear wheels is forward of the single rear speed sensor when a corresponding one of the left and right rear suspension assemblies is in the uncompressed position; and the rotation axis of the one of the left and right rear wheels is rearward of the single rear speed sensor when the corresponding one of the left and right rear suspension assemblies is in the compressed position. 2. The vehicle of claim 1 , wherein the single rear speed sensor comprises an encoder mounted on one side of a housing of the rear spool gear and a sensed part mounted to a constant velocity joint connected to one side of the rear spool gear. 3. The vehicle of claim 1 , wherein: each of the left and right front speed sensors comprises a slotted ring adapted for rotating with a respective one of the left and right front wheels and an encoder adapted for detecting a passing of each slot of the slotted ring and for providing a respective speed signal to an electronic controller; and the single rear speed sensor comprises a slotted ring adapted for rotating with the rear wheels and an encoder adapted for detecting a passing of each slot of the slotted ring and for providing a respective speed signal to the electronic controller. 4. The vehicle of claim 1 , wherein the first and second braking input devices comprise a hand lever and a foot lever. 5. The vehicle of claim 1 , further comprising: a front differential operatively connecting the motor to the left and right front wheels; a left front half shaft operatively connecting the left front wheel to the front differential; and a right front half shaft operatively connecting the right front wheel to the front differential. 6. The vehicle of claim 5 , wherein the left and right front speed sensors each comprise an encoder mounted on respective left and right sides of a housing of the front differential and a sensed part respectively mounted to left and right constant velocity joints connected to left and right sides of the front differential. 7. The vehicle of claim 6 , wherein: the left and right front suspension assemblies respectively comprise left and right front shock absorbers; the left front shock absorber is mounted between the left front brake assembly and the left front speed sensor; and the right front shock absorber being mounted between the right front brake assembly and the right front speed sensor. 8. The vehicle of claim 1 , wherein: the single rear brake assembly comprises a caliper mounted on one of the left and right rear suspension assemblies; and the caliper moves in relation to the single rear speed sensor with movements of the one of the left and right rear suspension assemblies. 9. The vehicle of claim 1 , further comprising: a steering column connected to the frame and operatively connected to the left and right front wheels; and a handlebar mounted on the steering column for steering the left and right front wheels; wherein one of the first and second braking input device is mounted to the handlebar. 10. The vehicle of claim 1 , further comprising: a hydraulic module fluidly connected to the first and second braking input devices, the left and right front brake assemblies and to the rear brake assembly, the hydraulic module being adapted for detecting the braking command; a hydraulic pump adapted for maintaining fluid pressure in the hydraulic module; and an electronic controller operatively connected to the hydraulic module, to the left and right front speed sensors, to the single rear speed sensor, and to the hydraulic pump, the electronic controller being adapted for: (a) receiving the braking command from the hydraulic module, (b) causing the hydraulic module to selectively apply at least one of a first pressure on the left front brake assembly, a second pressure on the right front brake assembly and a third pressure on the rear brake assembly when the braking command is detected. 11. The vehicle of claim 10 , wherein the electronic controller is further adapted for: (c) detecting, based on a comparison of the speeds detected by the left front sensor, the right front sensor and the single rear speed sensor, a locking or an onset of locking of one of the left front brake assembly, the right front brake assembly and the rear brake assembly, and (d) causing the hydraulic module to selectively release or reduce one of the first, second and third pressure applied to the one of the left front brake assembly, the right front brake assembly and the rear brake assembly that is locked or at the onset of locking. 12. An off-road vehicle comprising: a frame; a motor connected to the frame; a left front wheel connected to the frame via a left front suspension assembly; a right front wheel connected to the frame via a right front suspension assembly; a left rear wheel connected to the frame via a left rear suspension assembly; a right rear wheel connected to the frame via a right rear suspension assembly; a rear spool gear operatively connecting the motor to the left and right rear wheels; a left rear half shaft operatively connecting the left rear wheel to the rear spool gear; a right rear half shaft operatively connecting the right rear wheel to the rear spool gear; a left front brake assembly operatively connected to the left front wheel; a right front brake assembly operatively connected to the right front wheel; a left front speed sensor adapted for sensing a speed of the left front wheel; a right front spee