This application claims priority to German Application No. 10 2014 205 503.2, filed Mar. 25, 2014, The entirety of the disclosure of the above-referenced application is incorporated herein by reference.
1. Field of the invention
The present invention relates to a method by which, for example, in a soil compactor having at least one compactor roller, which in order to compact subsoil such as gravel, asphalt, or earth, moves over this subsoil, measurement artifacts contained in a measurement process representing the movement of the compactor roller can be eliminated.
2. Background of the Art
Soil compactors used for compacting the subsoil generally have compactor rollers, which contribute not only to subsoil compaction with their static load, but also with the high-frequency periodic oscillatory motions superimposed on the rotary motion of these compactor rollers, namely the motions of the compactor roller in the circumferential direction, or the vibrational motions, that is, motions in a back-and-forth direction. To produce these motion components superimposed on the rotation, unbalanced masses and the required drives are provided in the interior of the compactor rollers. Due to these additional masses, the occurrence of static or dynamic imbalances is virtually unavoidable, The result is that a periodic motion provoked by these imbalances is superimposed on the rotary motion of the compactor rollers with a period that generally corresponds to the period or frequency of the rotary motion.
For example, if a conclusion is to be drawn regarding the degree of compaction of the subsoil to be compacted by registering the motion state of such a compactor roller, it is necessary to obtain very precise information about the motion state, that is, for example, the acceleration of a compactor roller. The measurement artifacts provoked by such imbalances in the measured value curve reflecting the motion of such a compactor roller affect the assessability of such a measured value curve, for example for obtaining information about the degree of compaction of the subsoil.
it is the object of the present invention to provide a method to correct a measured value curve by means of which periodically occurring measurement artifacts can be eliminated in a simple but reliable manner.
According to the present invention, this object is attained by a method for the correction of a measured value curve by eliminating periodically occurring measurement artifacts, in particular in a measured value curve that represents the motion of a compactor roller of a soil compactor, comprising the actions:
In the method according to the present invention, a particular measured value curve is, for example, divided into its periods corresponding to one rotation of a compactor roller as a periodically repeating event. Each of these periods is corrected taking into consideration a mean period-measured value curve produced for these periods. All corrected period-measured value curves can then again be combined into a total corrected measured value curve, which is available for further assessment, for example, with regard to the degree of compaction of the subsoil to be compacted.
Since it basically must be assumed that this compactor will not always move at the same speed over the subsoil to be compacted during the motion of a soil compactor, length of the period, that is, for example, the duration of one rotation of the compactor roller, will not always be the same, also due to the influence, for example, of the slip owing to the periodic oscillatory motion, the plurality of periods can comprise periods of different lengths, and the action b) can comprise an action b1) for normalizing the period-measured value curves for the provision of length normalized period-measured value curves extending over an equal length, namely, for example, a time period. By normalizing the length of the period-measured value curves to he considered, it becomes possible to generate a mean value from all these period-measured value curves in a simple manner, that is, the already addressed mean period-measured value curve. For this length normalization, the action b1) can, for example, in each case comprise the sampling of the period-measured value curves with a predetermined equal number of equidistant samplings, and based on the sampling results obtained for each period-measured value curve, length normalized period-measured value curves can be obtained by an equidistant successive arrangement of the sampling results thereof for all period-measured value curves.
Since the entire level of the measured value curve can change over a longer duration of motion, and thus the different period-measured value curves can lie at a different level, it is further proposed that the action b) comprises an action b2) for the subtraction of a period-measured value curve mean determined for each period-measured value curve from the allocated period-measured value curve for the provision of displaced period-measured value curves.
To determine the mean period-measured value curve, length normalized and/or displaced period-measured value curves can advantageously be used in the action c).
For the formation of the mean period-measured value curve, it can for example be provided that the action c) comprises an action c1) to provide a mean period-measured value curve by forming a mean, preferentially an arithmetic mean, from the plurality of period-measured value curves.
Since, in general, the start and end point of such a mean period-measured value curve will be different from one another, it is further proposed that the action c) comprises an action c2) for connecting several mean period-measured value curves to one another and for mutually fitting directly successive mean period-measured value curves at the interfaces for the provision of a mean-total measurement value curve running continuously over a plurality of preferentially at least three periods. The directly successive, basically identical mean period-measured value curves can be mutually fitted by means of conventional fitting methods, and in consequence the start and end points at the particular period boundaries will be at the same level. It can thereupon be further provided that the action c) comprises an action c3) to determine a measured value curve allocated to a period of the mean-total measured value curve as a mean period-measured value curve. Thus an individual period is extracted, and the section of the mean-total measured value curve contained therein extracted as the mean period-measured value curve, so that basically a measured value curve for this period is present, which, on the one hand, is averaged from the period-measured value curves allocated to the different periods, and, on the other hand, is processed or adapted such that the start and end points are each at the same level, Here, in action c3), a period is advantageously accessed to which another period is adjacent on each side, so that it is ensured that the start and end point of the selected section of the measured value curve has been fitted.
In order to ensure that at the end of the actual correction, that is, the formation of the difference period-measured value curves, the corrected measured value curve again basically is at the same level as the measured value curve to be corrected, it is further proposed that the action e) comprises an action e1) to determine the back-displaced difference-period-measured value curve by adding each difference period-measured value curve to the period-measured value curve determined for the allocated period in action b2).
It is furthermore advantageous, if the action e) comprises an action e2) for normalizing the back length of the difference-period-measured value curve, such that the length of each normalized back length difference-period-measured value curve corresponds to the length of the period-measured value curve determined in allocation to a particular period before the execution of the action b1). In this way, it is ensured that even in the corrected measured value curve, the individual periods again have the period lengths, that is, for example, the period durations, which they had in the measured value curve to be corrected that was used as the start point. For this purpose, it can be provided, for example, that in the action e2), each difference-period-measured value curve is equidistantly sampled with the predetermined quantity and that the sampling results obtained for each difference-period-measured value curve are arranged successively at a distance, said distance corresponding to the distance of the equidistant samplings in the action b1). This action ensures that, in a kind of reciprocal value formation, the operation previously executed to normalize the length is again reversed.
Furthermore, the action e) can comprise an action e3) to provide a difference-total-measured value curve extending over the plurality of periods as a corrected measured value curve by successively arranging the difference-period-measured value curves determined for the periods. To this, the back-displaced and/or back-length-normalized difference-period-measured value curves are advantageously used in order to thus be able to provide the difference-total measured value curve, which is the corrected measured value curve.
The present invention will be described in detail below with reference to the enclosed figures, wherein:
Other different motions are superimposed on the periodic rotary motion of a compactor roller occurring in the course of the soil compactor motion. Thus, for example, a comparatively high-frequency oscillatory motion is superimposed on the uniform rotary motion of the compactor roller about its axis of rotation by means of an oscillating mechanism contained in the interior of the compactor roller. This high-frequency oscillatory motion leads to comparatively high circumferential accelerations of the compactor roller, which are reflected in the measured value curve M of
In order to be able to assess the measured value curve M composed, for example, of a plurality of individual measurement points in order to determine the degree of compaction of the subsoil to be compacted, it is necessary to eliminate such measurement artifacts, that is, to remove them from the measured value curve as far as possible. For this purpose, according to the present invention, the methods described below are implemented in order to obtain a corrected measured value curve Mk, from the measured value curve M which is also shown in
For this correction, the part of the measured value curve M shown in
In
In order to be able to use the period-measured value curves allocated to the individual periods P for the subsequent assessment or correction of the measured value curve, according to the present invention, the length of the individual periods P or of the measured value curve MP allocated to said periods P is first normalized. This will be explained below with reference to
In association with each of the period-measured value curve MP sampled in this way, a predetermined interval L1 is subsequently inserted between the respectively obtained sampling results, so that as a result of the successive arrangement of the individual sampling results of the different period-measured value curves MP, length-normalized period-measured value curves MPL, in each case separated by the interval L1, are obtained, which, on the one hand, each have the same number of measured values, namely the respective sampling results, and in which, on the other hand, such measurement values or sampling results have the same distance L1 from directly adjacent measurement values or sampling results, so that all length-normalized period-measured value curves MPL extend over the same length or duration of length-normalized period PL resulting from the normalization of the length.
The so length-normalized measured value curves MPL are then displaced, namely in each case by a period-measured value curve mean value MPM to be determined from the period-measured value curve MP allocated to said period P, as is also shown in
A section is extracted from the mean-total measured value curve MMGM shown in
With this mean period-measured value curve MmP determined or extracted for a length-normalized period PL, the actual correction is then carried out for the individual periods P1 to P5 or their length-normalized and displaced period-measured value curves MPLV in that a difference is determined between the respective length-normalized and displaced period-measured value curves and the mean period-measured value curve MmP. Such a difference-period-measured value curve MPD generated by forming the difference is exemplified, for example, in
In order to obtain the corrected measured value curve MK shown in
It should finally be pointed out that variations of the above described method for the correction of a measured value curve can, of course, be implemented in many ways without deviating from the basic principle of the present invention. For example, a particular measured value curve can be displaced or back displaced before the length normalization or back length normalization. Also, in particular, other technical assessment methods can be used for length normalization or back length normalization in order to ensure that the period-measured value curves allocated to the different periods are stretched or compressed to the same length.
Number | Date | Country | Kind |
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10 2014 205 503.2 | Mar 2014 | DE | national |