Road surface condition estimating method

The invention claimed is: 1. A method for estimating a road surface condition under a tire in motion from a time-series waveform of tire vibration detected by a vibration detector, the method comprising: estimating positions of a leading end point and a trailing end point of a tire contact area based on peak positions appearing in the time-series waveform; calculating one or more of a contact time, a non-contact time, and a revolution time, wherein the revolution time is a time corresponding to one revolution of the tire from the estimated positions of the leading end point and the trailing end point; and determining whether or not the estimated positions of the leading end point and the trailing end point are equal to actual positions of the leading end point and the trailing end point, based on one or more of the calculated contact time, the calculated non-contact time, and the calculated revolution time, wherein the estimation of a road surface condition is not performed after determining that one or both of the positions of the leading end point and the trailing end point estimated in the above step of estimating are not equal to the actual positions of the leading end point and the trailing end point. 2. The method for estimating a road surface condition according to claim 1 , wherein, the step of determining that one or both of the positions of the leading end point and the trailing end point estimated in the above step of estimating are not equal to the actual positions of the leading end point and the trailing end point further comprises: determining that the contact time, or a contact length estimated from the contact time, is outside a predetermined range for the contact time or the contact length. 3. The method for estimating a road surface condition according to claim 1 , wherein, the step of determining that one or both of the positions of the leading end point and the trailing end point estimated in the above step of estimating are not equal to the actual positions of the leading end point and the trailing end point further comprises: determining that the revolution time, or a revolution length estimated from the revolution time, is outside a predetermined range for the revolution time or the revolution length. 4. The method for estimating a road surface condition according to claim 1 , wherein, the step of determining that one or both of the positions of the leading end point and the trailing end point estimated in the above step of estimating are not equal to the actual positions of the leading end point and the trailing end point further comprises: determining that a contact time ratio, which is a ratio of the contact time to the revolution time is outside a predetermined range for the contact time ratio.