DE102015202768A1 - A method and apparatus for determining a respiratory maneuver quality score for a respiratory gas analysis, method and apparatus for analyzing respiratory gas, and respiratory gas meter - Google Patents

Abstract

The invention relates to a method for determining a breathing maneuver quality indicator (AQK) for a respiratory gas analysis. The method has a step of reading in at least one detected instantaneous value (Ftn) of a gas flow rate) of respiratory air in a breathing maneuver performed for the respiratory gas analysis. Also, the method includes a step of processing the at least one current value (Ftn) of the gas flow amount using a target value of the gas flow amount by a processing instruction to determine the breath maneuver quality score (AQK).

Description

State of the art

The present invention relates to a method for determining a respiratory maneuver quality score for a respiratory gas analysis, to a method for analyzing respiratory gas, to a respiratory gas meter, to a corresponding apparatus and to a corresponding computer program.

In the field of respiratory gas analysis, for example, a user can blow into a diagnostic device in which his breathing air can be analyzed. When exhaling into the diagnostic device, a defined gas flow can generally be maintained over a period of time, since measured values depend, in particular, on the respiratory flow. The EP 1 384 069 B1 describes an apparatus and method for the quantitative measurement of nitrogen oxides in the exhaled air.

Disclosure of the invention

Against this background, with the approach presented here, a method for determining a breathing maneuver quality indicator for a respiratory gas analysis, a method for analyzing respiratory gas, a device using one of these methods, a breathing gas measuring device and finally a corresponding computer program according to the main claims are presented. Advantageous embodiments emerge from the respective subclaims and the following description.

According to embodiments of the present invention, in particular in a respiratory gas analysis, a respiratory gas diagnosis or a measurement of a respiratory quality, a respiratory maneuver quality index can be determined with regard to a quality of execution of a respiratory maneuver to be performed for the respiratory gas analysis with the most constant volumetric flow over a period of time , Furthermore, the code can be documented, for example, together with measured values of the respiratory gas analysis.

Advantageously, according to embodiments of the present invention by determining the breath maneuver quality score, in particular, also immediately, after completing the breathing gas analysis or measurement, a quantitative assessment of a quality of the breathing maneuver can be made possible. Furthermore, the quality index can be documented or stored electronically with a respiratory gas analysis measured value, so that an assessment of the quality of a respiratory maneuver is also possible later, to which a, for example stored, respiratory gas analysis measured value is related. Thus, the determination of the quality index of the breathing maneuver can in particular enable a quantitative assessment of the quality of the breathing maneuver after the respiratory gas analysis or after a measurement and documentation of the quality of the breathing maneuver together with respiratory gas analysis measured values. For example, it may provide a way for a simple and standardizable assessment of what quality the breathing maneuver had and how accurate the readings are, by a user or doctor, for example, on recorded readings, rather than just an indication of respiratory flow during the breathing maneuver.

A method is provided for determining a breath maneuver quality score for a respiratory gas analysis, the method comprising the steps of:
Reading at least one detected instantaneous value of a gas flow amount of respiratory air in a breathing maneuver performed for the respiratory gas analysis; and processing the at least one instantaneous value of the gas flow rate using a gas flow rate setpoint using a processing instruction to determine the breath maneuver quality score.

In the respiratory gas analysis, at least one gas in exhaled breath can be qualitatively and additionally or alternatively quantitatively analyzed, recorded and additionally or alternatively measured. The breathing maneuver may include an exhalation process in which the breathing air is exhaled. The breathing gas analysis can in this case be carried out in conjunction with and additionally or alternatively using a respiratory gas measuring device or diagnostic device. For example, a person can breathe out into the breathing gas meter, the breathing air can be analyzed. The amount of gas flow or amount of respiratory flow of the processed breathing air in or through the breathing gas meter may represent a volume flow or mass flow of the breathing air. An instantaneous value may represent a measured value of the gas flow rate at a time. When exhaling into the breathing gas meter, a defined gas flow quantity represented by the desired value can be maintained over a defined period of time in order to achieve a measurement accuracy. Respiratory gas measurements of respiratory gas analysis may be dependent on the gas flow rate of the respiratory air. In this case, the breath maneuver quality indicator may be variable as a function of a ratio of the at least one instantaneous value to the desired value.

According to one embodiment, in the step of processing, a tolerance range around the target value may be used to calculate the breath maneuver quality score as a quantitative evaluation value for evaluating a result of the Determine respiratory gas analysis of the breathing maneuver. The setpoint may be within the tolerance range or represent a margin value of the tolerance range. Such an embodiment offers the advantage that an allowable range of breath maneuver qualities can be taken into account, within which meaningful analysis values can be obtained. Thus, a number of misses in the breathing maneuver can be reduced.

wobei AQK die Atemmanöver-Qualitätskennzahl repräsentieren kann, S den Sollwert für die Gasflussmenge repräsentieren kann, I einen Toleranzbereich um den Sollwert in Prozent repräsentieren kann, F_tn einen Momentanwert der Gasflussmenge zu einem Zeitpunkt tn repräsentieren kann, N eine Anzahl von Momentanwerten repräsentieren kann und n einen laufenden Index von Momentanwerten repräsentieren kann. Dabei kann die Anzahl von Momentanwerten eine Gesamtanzahl von erfassten Momentanwerten sein, die einem Atemmanöver zugeordnet sein können. Der laufende Index kann eine Laufvariable oder einen Laufindex des Summenausdrucks der Gleichung repräsentieren. Hierbei kann die Atemmanöver-Qualitätskennzahl zwischen 0 und 1 liegen, wobei 1 eine maximale Qualität und 0 eine minimale Qualität repräsentieren kann. Eine solche Ausführungsform bietet den Vorteil, dass mittels der Verarbeitungsvorschrift besonders aussagekräftige, normierte Atemmanöver-Qualitätskennzahlen erhalten werden können.In particular, in the step of processing, a processing rule may be used, which may have the following equation:

wherein AQK can represent the breath maneuver quality score, S can represent the gas flow rate setpoint, I can represent a tolerance range around the set point in percent, F _tn can represent a current value of the gas flow set at a time tn, N can represent a number of instantaneous values, and n can represent a running index of instantaneous values. In this case, the number of instantaneous values can be a total number of acquired instantaneous values which can be assigned to a breathing maneuver. The running index may represent a running variable or a running index of the sum term of the equation. Here, the breath maneuver quality score may be between 0 and 1, where 1 may represent a maximum quality and 0 a minimum quality. Such an embodiment offers the advantage that particularly meaningful, standardized breathing maneuver quality indices can be obtained by means of the processing instruction.

Furthermore, a method for analyzing breathing gas is presented, the method comprising the following steps:
Performing breathing gas analysis on breathing gas of a breathing maneuver to obtain a breath gas reading;
Determining a breath maneuver quality score by performing an embodiment of the above method; and
Storing the breath gas reading and the breath maneuver quality score in a linked condition.

The method of analyzing respiratory gas may be advantageously carried out in conjunction with an embodiment of the aforementioned method for determining a breath maneuver quality score for a respiratory gas analysis. Herein, in the step of storing, a breath gas reading and a breath maneuver quality score, which may be related to a common breath maneuver, may be stored as a common or linked record.

According to one embodiment, the method may include a step of displaying the breath maneuver quality score in a context with the breath gas reading. Such an embodiment offers the advantage that, for example, directly after the analysis, it is possible to read the quality of a breathing maneuver on which the measured value is based, and thus facilitate and / or accelerate a decision regarding a repetition of breathing maneuvers and analysis.

Also, the method may include a step of comparing the breath maneuver quality score to a threshold that may represent a lower quality limit for the breathing maneuver. The step of storing may be performed when the breath maneuver quality score is greater than or equal to the threshold. The threshold may be adjustable or predetermined. Such an embodiment offers the advantage that only respiratory gas measured values whose associated respiratory maneuvers fulfill a specific quality requirement are stored in order to minimize measurement deviations in the respiratory gas measured values.

The approach presented here also creates a device that is designed to perform the steps of a variant of a method presented here in appropriate facilities to drive or implement. Also by this embodiment of the invention in the form of a device, the object underlying the invention can be solved quickly and efficiently.

In the present case, a device can be understood as meaning an electrical device which processes sensor signals and outputs control and / or data signals in dependence thereon. The device may have an interface, which may be formed in hardware and / or software. In the case of a hardware-based embodiment, the interfaces can be part of a so-called system ASIC, for example, which contains a wide variety of functions of the device. However, it is also possible that the interfaces are their own integrated circuits or at least partially consist of discrete components. In a software training, the interfaces may be software modules that are present, for example, on a microcontroller in addition to other software modules.

A breathing gas meter is also presented which has the following features:
means for detecting at least one instantaneous value of a gas flow amount of breathing air in a breathing maneuver; and
a gas sensor for analyzing breathing gas of the breathing maneuver; and
an embodiment of the aforementioned device.

In connection with the respiratory gas meter, an embodiment of the above-mentioned device may be advantageously used to determine a breath maneuver quality score for a respiratory gas analysis and additionally or alternatively to analyze respiratory gas. The device may be communicable with the means for detecting and additionally or alternatively connected to the gas sensor. Furthermore, the respiratory gas measuring device and additionally or alternatively the device may have a memory device or be connected to a memory device in a manner capable of transmitting data.

Also of advantage is a computer program product or computer program with program code which can be stored on a machine-readable carrier or storage medium such as a semiconductor memory, a hard disk memory or an optical memory and for carrying out, implementing and / or controlling the steps of the method according to one of the embodiments described above is used, especially when the program product or program is executed on a computer or a device.

The approach presented here will be explained in more detail below with reference to the accompanying drawings. Show it:

1 a block diagram of a breathing gas meter according to an embodiment of the present invention;

2 a flowchart of a method for determining according to an embodiment of the present invention;

3 a flow chart of a method for analyzing according to an embodiment of the present invention; and

4 a Gasflussmengendiagramm of breathing air in a breathing gas analysis in connection with the breathing gas meter from 1 , the method for determining 2 and / or the method of analyzing 3 ,

In the following description of favorable embodiments of the present invention, the same or similar reference numerals are used for the elements shown in the various figures and similar acting, with a repeated description of these elements is omitted.

1 shows a block diagram of a breathing gas meter 100 according to an embodiment of the present invention. The breathing gas meter 100 is useful for performing respiratory gas analysis on exhaled breath or exhaled breath analysis (EBA). The exhaled breathing air is in a breathing maneuver with a volume flow V. or gas flow into the respiratory gas meter 100 blown. The exhaled breathing air includes at least one respiratory gas to be analyzed.

For picking up the injected volume flow V. or gas flow to breathing air in the breathing maneuver has the breathing gas meter 100 a recording device 101 on. The recording device 101 is here, for example, formed as a cylindrical tube. The breathing gas meter 100 further comprises a detection device 102 and a gas sensor 104 on. The detection device 102 and the gas sensor 104 are here in the field of recording device 101 arranged.

The detection device 102 is designed to at least an instantaneous value F _tn a gas flow rate or the volume flow V. breathing air during a breathing maneuver. In this case, the detection device 102 In particular, in order to generate a series of instantaneous values F _{tn of} the gas flow rate or of the volume flow during a breathing maneuver V. to capture the breathing air in definable time intervals. The detection device 102 is for example designed to detect the at least one instantaneous value F _tn directly via a flow meter or indirectly via a pressure sensor and a flow resistor. Furthermore, the detection device 102 designed to provide or output the at least one instantaneous value F _tn .

The gas sensor 104 is designed to analyze at least one respiratory gas in the breathing air in the breathing maneuver. Here is the gas sensor 104 in particular designed to qualitatively and / or quantitatively analyze or measure the at least one respiratory gas. The gas sensor 104 is here according to the in 1 illustrated embodiment of the present invention to provide or output raw data R, representing, for example, unprocessed sensor data or sensor signals with respect to the respiratory gas analysis.

The breathing gas meter 100 also has an analysis device 110 or device for Analyze breathing gas. According to the in 1 illustrated embodiment of the present invention in this case has the analysis device 110 a passage device 112 , a storage device 114 and a determination device 120 on.

The determination device 120 is designed to determine a respiratory maneuver quality score AQK for the respiratory gas analysis. In this case, the determining device 120 designed to the breath maneuver quality ratios AQK using the at least one instantaneous value F _tn the gas flow rate or the volume flow V. to determine. The determination device 120 has a read-in device 122 and a processing device 124 on.

The reading device 122 the determination device 120 is formed to the at least one detected instantaneous value F _{tn of} the gas flow rate or the volume flow V. inhaled breathing air during a breath maneuver performed for the respiratory gas analysis. Here is the read-in device 122 formed to the at least one instantaneous value F _tn of the detection device 102 to recieve. Furthermore, the read-in device 120 formed to the at least one read instantaneous value F _tn the gas flow rate or the volume flow V. to the processing device 124 forward or the processing device 124 provide.

The processing device 124 the determination device 120 is formed to the at least one instantaneous value F _{tn of} the gas flow rate or the volume flow V. from the reading device 122 to recieve. The processing device 124 is formed to the at least one instantaneous value F _{tn of} the gas flow rate or the volume flow V. using a gas flow setpoint using a processing protocol to determine the breath maneuver quality score AQK. Also, the processing device 124 designed to provide the particular breath maneuver quality score AQK.

The execution facility 112 the analyzer 110 is configured to receive the raw data R from the gas sensor 104 to recieve. The feedthrough device 112 is designed to perform a breathing gas analysis on breathing gas of a breathing maneuver to obtain a breathing gas measurement value M. Here is the feedthrough device 112 designed to perform the breathing gas analysis using the gas sensor 104 perform. Also, the feedthrough device 112 configured to generate at least one breathing gas reading M based on a breathing maneuver using the raw data R. Furthermore, the feedthrough device 112 designed to provide the respiratory gas reading M or output.

The storage device 114 the analyzer 110 is adapted to the breath maneuver quality score AQK of the determining device 120 and the breathing gas reading M from the duct 112 to recieve. The storage device 114 is designed to store for each breath maneuver the breath gas reading M and the breathing maneuver quality score AQK in an interconnected state. Specifically, the storage device 114 configured to store a breath gas reading M and a breath maneuver quality score AQK related to a common breath maneuver in an associated state.

According to one embodiment, the processing device 124 the determination device 120 configured to determine the breath maneuver quality score AQK using a tolerance around the setpoint. The respiratory maneuver quality indicator AQK in this case represents in particular a quantitative assessment variable for evaluating the respiratory gas measured value M.

zu bestimmen. In der Gleichung repräsentiert AQK die Atemmanöver-Qualitätskennzahl, repräsentiert S den Sollwert für die Gasflussmenge, repräsentiert I einen Toleranzbereich bzw. ein erlaubtes Toleranzband um den Sollwert in Prozent, repräsentiert F_tn einen Momentanwert der Gasflussmenge zu einem Zeitpunkt tn, repräsentiert N eine Anzahl von Momentanwerten und repräsentiert n einen laufenden Index von Momentanwerten. Gültige Gasflussmessungen bzw. Momentanwerte F_tn liegen beispielsweise innerhalb des Toleranzbereichs. Die so berechnete Atemmanöver-Qualitätskennzahl AQK liegt zwischen 1, was einer sehr guten Atemmanöverqualität entspricht, und 0, was einer schlechten Atemmanöverqualität entspricht. Sehr gute Atemmanöverqualität repräsentiert einen sehr gleichmäßigen Gasfluss ohne Abweichung bzw. wesentliche Abweichung vom Sollwert. Schlechte Atemmanöverqualität repräsentiert starke Abweichungen des Gasflusses vom Sollwert.In particular, according to one embodiment, the processing device 124 adapted to the breath maneuver quality score AQK using a processing rule with the equation

to determine. In the equation, AQK represents the breath maneuver quality score, S represents the target gas flow rate, I represents a tolerance range around the target value in percent, F _{tn represents} a current value of the gas flow amount at a time tn, N represents a number of Instantaneous values and represents n an ongoing index of instantaneous values. Valid gas flow measurements or instantaneous values F _tn are within the tolerance range, for example. The calculated breath maneuver quality score AQK is between 1, which corresponds to a very good breath maneuver quality, and 0, which corresponds to a bad breath maneuver quality. Very good breath maneuver quality represents a very even gas flow without deviation or significant deviation from the set point. Poor breath maneuver quality represents large deviations of the gas flow from the set point.

Optionally, the analysis device 110 a comparison device 130 on. The comparison device 130 is configured to compare the breath maneuver quality score AQK with a threshold representing a lower quality limit for the breathing maneuver. Here is the analysis device 110 configured to store the breath maneuver quality score AQK associated with the associated breath gas reading M only if the breath maneuver quality score AQK is greater than or equal to the threshold.

According to a further embodiment, the breathing gas meter 100 a display device 140 on. The display device 140 is configured to display the breath maneuver quality score AQK and the breath gas reading M. Here is the analysis device 110 adapted to display an indication of the breath maneuver quality score AQK in a context with the breath gas reading M by means of the indicator 140 to effect. The display device 140 is with the analyzer 110 data-transferable connected. This is the analysis device 110 trained to the breath maneuver quality score AQK and the breathing gas reading M to the display device 140 issue.

Optionally, the breathing gas meter 100 also a storage device 150 on. The storage device 150 is with the analyzer 110 data-transferable connected. The analyzer 110 is configured to provide the breath maneuver quality score AQK and the breath gas reading M to the storage device 150 issue. In particular, the memory device 114 the analyzer 110 formed to the breath maneuver quality score AQK and the breath gas reading M, which are linked together in the storage device 150 outsourced, for example, to save them permanently.

2 shows a flowchart of a method 200 for determining a breath maneuver quality score for a respiratory gas analysis according to an embodiment of the present invention. Here is the procedure 200 for determining using or in connection with the device or the respiratory gas meter 1 executable.

The procedure 200 has a step 210 reading in at least one detected instantaneous value of a gas flow quantity of breathing air during a breathing maneuver performed for the respiratory gas analysis. In one step 210 the reading subsequently executable step 220 the processing is in the process 200 the at least one instantaneous value of the gas flow rate is processed using a setpoint for the gas flow rate by means of a processing instruction to determine the breath maneuver quality score.

According to one embodiment, in step 220 processing, uses a tolerance range around the setpoint to determine the breath maneuver quality score as a quantitative score for evaluating a result of the breath analysis of the breathing maneuver. In particular, according to an embodiment in step 220 of processing uses a processing rule with the following equation:

Here, AQK represents the breath maneuver quality index, S represents the gas flow rate set point, I represents a tolerance range or tolerance band around the set point in percent, F _{tn represents} an instantaneous gas flow amount at a time tn, N represents a number of instantaneous values and n represents a running index of instantaneous values. Thus, here in the step 220 processing the breath maneuver quality score from measured gas flow rate values using the equation.

3 shows a flowchart of a method 300 for analyzing respiratory gas according to an embodiment of the present invention. Here is the procedure 300 for analyzing using or in connection with the device or the respiratory gas meter 1 and in conjunction with the method of determining 2 executable.

The procedure 300 has a step 310 performing breathing gas analysis on breathing gas of a breathing maneuver to obtain a breath gas reading. Also, the procedure assigns 300 one step 320 determining a breath maneuver quality score. In the step 320 determining is a method of determining a breath maneuver quality score for a respiratory gas analysis is the method 2 carried out. In other words, in the step 320 determining the steps of the method 2 executed as substeps.

In one step 310 performing a breathing gas analysis and the step 320 determining a breath maneuver quality score, then executable step 330 of storing will be in the process 300 the breath gas reading and breath maneuver quality score are stored in an interconnected state.

According to one embodiment, the method 300 a further step 340 displaying the breath maneuver quality score in a context with the breath gas reading. The breath maneuver quality indicator is thus displayed and stored for each respiratory gas measurement.

According to a further embodiment, the method 300 one step 350 comparing the breath maneuver quality score to a threshold representing a lower quality limit for the breathing maneuver. This is the step 330 of saving when executed in the step 350 Comparing, it is determined that the breath maneuver quality score is greater than or equal to the threshold. The threshold defines a minimum breath maneuver quality score for a valid measurement. In the case of a breath maneuver quality score less than the threshold, respiratory maneuvers and analysis may or may be repeated.

Thus, the process can 300 the step 310 performing, the step 320 determining and the step 330 of storing or can the method 300 after the step 310 performing and stepping 320 determining and before the step 330 of saving the step 340 viewing and / or step 350 of comparing.

4 shows a Gasflussmengendiagramm 400 of breathing air in a breathing gas analysis in connection with the breathing gas meter 1 , the method for determining 2 and / or the method of analyzing 3 , The gas flow diagram 400 is represented as a Cartesian coordinate system. The time t is plotted on the abscissa axis and the gas flow or the gas flow rate F is plotted on the ordinate axis. In the form of a graph 410 Thus, the gas flow rate F over time t is shown. Furthermore, a setpoint value S for the gas flow rate F in a tolerance range I with an upper limit value + I and a lower limit value I is drawn in parallel to the abscissa axis. Also, at times t1, t2, t3 and tx, for example, only four parallel to the ordinate axis are drawn, at their intersections with the graph 410 Instantaneous _values F _t1 , F _t2 , F _t3 and F _{tx of} the gas flow rate F are readable.

In particular, the graph represents 410 a gas flow during a breathing maneuver. For example, a user blows into the in 1 shown breathing gas meter. In this case, the gas flow rate F is measured electronically and stored, for example, at short and / or uniform intervals during an entire analysis process or measurement process.

The embodiments described and shown in the figures are chosen only by way of example. Different embodiments may be combined together or in relation to individual features. Also, an embodiment can be supplemented by features of another embodiment.

Furthermore, the method steps presented here can be repeated as well as executed in a sequence other than that described.

If an exemplary embodiment comprises a "and / or" link between a first feature and a second feature, then this is to be read so that the embodiment according to one embodiment, both the first feature and the second feature and according to another embodiment either only first feature or only the second feature.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1384069 B1 [0002]

Claims (10)

Procedure ( 200 ) for determining a breathing maneuver quality score (AQK) for a respiratory gas analysis, the method ( 200 ) has the following steps: reading in ( 210 ) at least one detected instantaneous value (F _tn ; F _t1 , F _t2 , F _t3 and F _tx ) of a gas flow quantity (V. F) of breathing air during a breathing maneuver performed for the respiratory gas analysis; and processing ( 220 ) of the at least one instantaneous value (F _tn ; F _t1 , F _t2 , F _t3 and F _tx ) of the gas flow quantity (V. F) using a setpoint value (S) for the gas flow rate (V. F) using a processing protocol to determine the breath maneuver quality score (AQK). Procedure ( 200 ) according to claim 1, characterized in that in step ( 220 ) of processing, a tolerance range (I) around the set point (S) is used to determine the breath maneuver quality score (AQK) as a quantitative score for assessing a result of the breath analysis of the breathing maneuver. Procedure ( 200 ) according to one of the preceding claims, characterized in that in step ( 220 ) processing a processing rule is used which has the following equation:

where AQK represents the breath maneuver quality score, S the gas flow rate set point (V. F), I represents a tolerance range around the setpoint in percent, F _tn an instantaneous value of the gas flow rate (V. F) at a time tn, N represents a number of instantaneous values and n represents a current index of instantaneous values. Procedure ( 300 ) for analyzing respiratory gas, the method ( 300 ) comprises the following steps: 310 ) a breathing gas analysis of breathing gas of a breathing maneuver to obtain a breath gas reading (M); Determine ( 320 ) of a breath maneuver quality score (AQK) by performing the method ( 200 ) according to one of the preceding claims; and save ( 330 ) of the breath gas reading (M) and the breath maneuver quality score (AQK) in a linked state. Procedure ( 300 ) according to claim 4, characterized by a step ( 340 ) displaying the breath maneuver quality score (AQK) in a context with the breath gas reading (M). Procedure ( 300 ) according to one of claims 4 to 5, characterized by a step ( 350 ) of comparing the breath maneuver quality score (AQK) with a threshold representing a lower quality limit for the breathing maneuver, the step ( 330 ) of storing when the breath maneuver quality score (AQK) is greater than or equal to the threshold. Contraption ( 110 . 120 ), which is designed to handle all the steps of a process ( 200 ; 300 ) to implement, implement and / or to control according to one of the preceding claims. Breathing gas meter ( 100 ), comprising: a device ( 102 ) for detecting at least one instantaneous value (F _tn ; F _t1 , F _t2 , F _t3 and F _tx ) of a gas flow quantity (V. F) of breathing air in a breathing maneuver; and a gas sensor ( 104 ) for analyzing breathing gas of the breathing maneuver; and a device ( 110 . 120 ) according to claim 7. Computer program adapted to perform all steps of a procedure ( 200 ; 300 ) to implement, implement and / or to control according to one of the preceding claims. Machine-readable storage medium with a computer program stored thereon according to claim 9.

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