Acceleration Measurements Inside Vehicles: Passengers’ Comfort Mapping on Railways. Pablo Zoccali1, Giuseppe Loprencipe 1* and Robert Cristian Lupascu1

Once the speed rate was verified, the repeatability of the acceleration measurements was investigated, in terms of frequency weighted RMS accelerations along the three directions (a_wx, a_wy and a_wz) and vibration total value (a_v). The values obtained for all passages performed along section 3 direction WE are shown in Table 8 and also depicted in Figure 6. As can be seen, acceleration values are pretty low and meaningfully lower than the maximum limit of the Not Uncomfortable level provided by ISO 2631 (i.e. 0.315 m/s²). In any case, it can be say that a good repeatability was found for this specific section and, more in general, for all examined sections as confirmed by the values reported in Table 9 and Table 10. The pretty low values found depends on the high maintenance requirements adopted for the line. In fact, vibration total values greater than 0.2 m/s² were found just for two section 04 and section 06 both direction EW (Table 10). In particular, section 06 direction EW was characterized by the highest vertical RMS acceleration value (i.e. 0.250 m/s²).

Performing the repeatability analysis on such low acceleration values does not allow to evaluate how irregularities and, more in general, worst ride comfort levels may affect measurements repeatability. In fact, in these cases, the final acceleration values are expected to be more sensitive to speed variability. However, although the examined sections do not present very high acceleration values, some acceleration peaks were located along each path.

For this reason, as already stated in the previous sections, in addition to the RMS acceleration values calculated on whole sections, they were also determined for segments of 10 m. In this way, the capability of the proposed approach to assess localized irregularities and discomfort causes along the path was also investigated.

Since the instrumentation used for the in-situ measurements does not directly provide distances, it is important to verify the accuracy and repeatability at the various passages of the distances calculated starting from speed and time measures.

For this reason, the whole lengths of each examined section measured during the various passages were compared. The obtained results are depicted in Figure 7 for direction WE and Figure 8 for direction EW where the error bars represent the standard deviation calculated for each section. In particular, in these figures, the variability of the calculated length compared to the effective ones is reported, together with the standard deviation expressed in percentage unit and referred to the effective length of each section. With regard to the latter aspect, it can be noted that, except for sections 2 and 7 in both directions characterized by the reduction of GPS signal quality along the paths, the percentage values found were always lower than 10%.

The accuracy found was evaluated to be acceptable for driving the acceleration signals measured at the various passages into 10 m length segments.

For brevity, the following figures are referred just to section 04 direction EW, but same results and considerations can be made for the other ones. The choice of this section depends on the fact that analyzing the variability of the a_wz along it, it was found a localized area characterized by values significantly greater than the ones on the remaining part of the section. What just said can be clearly seen in Figure 9, where the results obtained for 4 different measurements are depicted.

Similar results in terms of repeatability were also found for transversal accelerations (Figure 11), whose maximum values were found on the curve arc as expected, and for longitudinal accelerations in correspondence of acceleration and braking actions (Figure 12).