Self-adaptive filtering method of dynamic axle weighing signal of vehicle

Abstract

The invention relates to a self-adapting method for filtering vehicle dynamic shaft load signal, aiming to effectively eliminate weighing error due to vehicle dynamic load and remarkably improve the vehicle weighing accuracy. The invention processes the original shaft load signal by zero phase offset and low-pass filtering, so as to eliminate white noise interference and inhibit phase distortion of the shaft load signal during low-pass filtering process. The invention also adopts optimized cut-off to the original weighing signal by searching average value of extreme points of shaft load signal, so as to better inhibit gravitation impulse interference in the weighing signal. Further, the invention decomposes the weighing signal by empirical mode decomposition method, meanwhile, adopts end point continuation method in empirical mode decomposition, so as to eliminate end effect, effectively inhibit the generation of false mode and make the decomposed result relatively true. The invention eliminates low-frequency interference through empirical mode decomposition, so as to obtain true shaft load signal.

Description

technical field [0001] The invention relates to a processing method for vehicle dynamic weighing signals, in particular to an adaptive filtering method for vehicle dynamic axle load signals. Background technique [0002] The dynamic weighing of road vehicles is to weigh the vehicle while driving, that is, the vehicle passes the weighing platform at a certain speed, and the weighing instrument measures the weight of each axle of the vehicle in turn, and then adds up the weight of each axle to finally obtain the weight of the whole vehicle . Compared with parking static weighing, dynamic weighing has the advantages of fast speed, high efficiency, and no impact on traffic, but the biggest disadvantage is poor weighing accuracy. This is because the force on the load cell will inevitably be affected by the unevenness of the ground, the vibration of the vehicle itself, the vibration of the weighing platform, the driving force of the tire and other factors, these factors will form...

AI Technical Summary

Problems solved by technology

[0003] In the existing technology, the domestic methods for processing the dynamic weighing signal of the vehicle are: multi-point mean filtering, sliding multi-point mean filtering and low-pass filtering, etc., but these methods can only remove some high-frequency interference and cannot Remove the low-frequency vibration interference caused by the dynamic load of the vehicle, which causes large weighing errors

The main reason why it cannot be removed is that the amplitude, phase and frequency of the low-frequency interference change randomly, and the above-mentioned digital filtering or low-pass filtering cannot be changed according to this change. From this perspective, it is not a Adaptive signal processing method, therefore, it is difficult to effectively filter out the low frequency interference

In addition, if the speed of the vehicle passing the weighing platform exceeds the rated value specified by the system (for example: greater than 20km/h), it means that the weighing signal collected by the system is compressed on the time axis. At this time, the intercepted weig...

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