Straddled vehicle

What is claimed is: 1 . A straddled vehicle comprising: at least one front wheel; at least one rear wheel; a driving source which generates a driving force and rotates the at least one rear wheel with the driving force; a braking device which lowers a rotation speed of at least the at least one rear wheel; a first detector which acquires and outputs a pitch rate; a second detector which detects and outputs information concerning rotation of the at least one front wheel; and a controller including a front wheel lift determination circuit which monitors respective outputs from the first detector and the second detector to determine whether a front wheel lift exists or not based on at least one of the pitch rate and the information concerning rotation of the at least one front wheel, when the front wheel lift determination circuit determines that the front wheel lift exists, the controller reducing a driving force of the straddled vehicle by controlling the driving source or the braking device. 2 . The straddled vehicle of claim 1 , further comprising a third detector which detects and outputs each of the rotation speed of the at least one rear wheel, a rotation rate of the driving source, and an acceleration of the straddled vehicle along a longitudinal direction, wherein the front wheel lift determination circuit determines whether the front wheel lift exists or not further based on at least one of the rotation speed of the at least one rear wheel, the rotation rate of the driving source, and the acceleration, and the pitch rate or the information concerning rotation of the at least one front wheel. 3 . The straddled vehicle of claim 1 , wherein the information concerning rotation of the at least one front wheel is a derivative of a rotation speed of the at least one front wheel with respect to time. 4 . The straddled vehicle of claim 1 , wherein the controller calculates a pitch angle which is obtained by integrating the pitch rate with respect to time, based on the pitch angle, the controller reduces the driving force of the straddled vehicle by controlling the driving source or the braking device. 5 . The straddled vehicle of claim 1 , wherein the controller includes: a front wheel lift height estimation circuit which estimates from the pitch rate, a height by which the at least one front wheel is lifted; and a driving force suppression control circuit, wherein based on the pitch rate and the height by which the at least one front wheel is lifted, the driving force suppression control circuit determines an amount of decrease in the driving force, or an amount of decrease in the rotation speed of the at least one rear wheel. 6 . The straddled vehicle of claim 5 , wherein the front wheel lift height estimation circuit calculates a pitch angle by integrating the pitch rate with respect to time, and estimates the height by which the at least one front wheel is lifted based on the pitch angle. 7 . The straddled vehicle of claim 6 , wherein the front wheel lift height estimation circuit estimates the height by which the at least one front wheel is lifted based on the pitch angle and a distance between the at least one front wheel and the at least one rear wheel. 8 . The straddled vehicle of claim 5 , wherein the driving force suppression control circuit consecutively calculates values for a first control amount based on the pitch rate and the height by which the at least one front wheel is lifted, and when the first control amount is increasing, further wherein based on the values for the first control amount, the driving force suppression control circuit determines the amount of decrease in the driving force or the amount of decrease of the rotation speed of the at least one rear wheel. 9 . The straddled vehicle of claim 8 , wherein when the pitch rate is positive, the driving force suppression control circuit calculates as one of the values for the first control amount a sum of a value resulting from multiplying the pitch rate with a predetermined coefficient, and a value resulting from multiplying the height by which the at least one front wheel is lifted with another predetermined coefficient, and when the pitch rate is negative, the driving force suppression control circuit calculates as another of the values of the first control amount, a value resulting from multiplying the height by which the at least one front wheel is lifted with a predetermined coefficient. 10 . The straddled vehicle of claim 8 , wherein, when the consecutively-calculated values of the first control amount are decreasing, the driving force suppression control circuit calculates values for a second control amount which is obtained by reducing a maximum value of the consecutively-calculated values for the first control amount over time, and determines in accordance with the values of the second control amount, the amount of decrease in the driving force, or the amount of decrease in the rotation speed of the at least one rear wheel. 11 . The straddled vehicle of claim 10 , wherein the driving force suppression control circuit calculates the values of the second control amount by reducing the maximum value by a rate A over a time, and varies the rate A before the second control amount reaches zero. 12 . The straddled vehicle of claim 10 , wherein the driving force suppression control circuit calculates the values of the second control amount by reducing the maximum value by a constant rate over time. 13 . The straddled vehicle of claim 8 , wherein when the consecutively-calculated values of the first control amount is decreasing, the driving force suppression control circuit calculates values for a second control amount which is obtained by reducing a maximum value of the consecutively-calculated values of the first control amount by a constant rate over time, and determines in accordance with whichever is larger between the first control amount and the second control amount, the amount of decrease in the driving force or the amount of decrease in rotation speed of the at least one rear wheel. 14 . The straddled vehicle of claim 13 , further comprising a transmission which transmits a driving force to the at least one rear wheel while converting revolutions of the driving source with a selected one of a plurality of transmission ratios, wherein the constant rate is set in accordance with the selected transmission ratio of the transmission. 15 . The straddled vehicle of claim 12 , further comprising a mode input circuit which switches between a plurality of travel modes to be chosen by a rider, wherein the constant rate is set in accordance with a travel mode of the travel modes that is chosen by the rider. 16 . The straddled vehicle of claim 15 , wherein even when the pitch rate is negative, the driving force suppression control circuit determines the amount of decrease in the driving force or the amount of decrease in the rotation speed of the at least one rear wheel. 17 . The straddled vehicle of claim 15 , wherein even when a current value of the values of the first control amount equals zero and if a current value of the second control amount is positive, the driving force suppression control circuit determines in accordance with the current value of the second control amount, the amount of decrease in the driving force or the amount of decrease in the rotation speed. 18 . The straddled vehicle of claim 1 , wherein the first detector further acquires a bank angle and a yaw rate of the straddled vehicle, a